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Acer Chromebook 11 CB311-8HT. Acer Chromebook 11 (2018) initial review: Blue, budget and potentially brill Source: Pocket Lint EN→RU We thought the 2017 Acer Chromebook 11 was about as good as things could get around the £200 price point. For just a little more the 2018 model throws in future-proofed USB Type-C ports, a snazzy blue finish and will have Google Play integration from launch. Classic Review, Online, Short, Date: 15/01/2018. Acer’s new compact, portable Chromebook is a small steal at CES Source: CNet EN→RU The 12-inch laptop is one of the first budget-friendly Chromebooks to debut at the international trade show. video review Classic review, online, very short, Date: 08/01/2018. Acer Chromebook 11 hands-on review Source: Stuff TV EN→RU The Chromebook 11 is shaping up to be a great budget choice, with extras like USB-C that we don’t yet take for granted in entry-level machines. Full Android app support is another handy extra, even if performance from that Celeron is still up for debate. Classic Review, Online, Short, Date: 07/01/2018. Comment. Intel HD Graphics 500 : GPUs in this performance category will handle only the simplest games, more suitable for simple tasks – watching videos on the Web and processing documents. A plus can be considered a modest heating and energy consumption.

Acer Chromebook 11 CB311-8HT. Acer Chromebook 11 (2018) initial review: Blue, budget and potentially brill Source: Pocket Lint EN→RU We thought the 2017 Acer Chromebook 11 was about as good as things could get around the £200 price point. For just a little more the 2018 model throws in future-proofed USB Type-C ports, a snazzy blue finish and will have Google Play integration from launch. Classic Review, Online, Short, Date: 15/01/2018. Acer’s new compact, portable Chromebook is a small steal at CES Source: CNet EN→RU The 12-inch laptop is one of the first budget-friendly Chromebooks to debut at the international trade show. video review Classic review, online, very short, Date: 08/01/2018. Acer Chromebook 11 hands-on review Source: Stuff TV EN→RU The Chromebook 11 is shaping up to be a great budget choice, with extras like USB-C that we don’t yet take for granted in entry-level machines. Full Android app support is another handy extra, even if performance from that Celeron is still up for debate. Classic Review, Online, Short, Date: 07/01/2018. Comment. Intel HD Graphics 500 https://jiji.co.ke/53-mirrors : GPUs in this performance category will handle only the simplest games, more suitable for simple tasks – watching videos on the Web and processing documents. A plus can be considered a modest heating and energy consumption.

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Best VR Headsets CES 2019

Best VR Headsets CES 2019

New technologies are constantly appearing around, virtual reality has long become familiar to many. There are already headsets on the market from Sony, HTC, Facebook and Google. But, for various reasons, this technology has not gone beyond a niche audience.

https://jiji.ng/253-spanish-fly The Best Virtual Reality Headsets

However, CES showed that things will change very soon. That is why I decided to tell you about the best virtual reality (VR) headsets from CES 2019.

Best virtual reality glasses 2019' width ='800

Oculus Quest

There are already great Oculus Rift glasses on the market, but for the most part enthusiasts buy them, because the gadget has rather high computer requirements. Oculus Quest does not require this, which increases the appeal and potential audience of this device.

Oculus Quest

Oculus already has experience with standalone headsets, so the Quest model can bring us even closer to virtual reality. This is the first virtual reality gaming headset. You don’t need to purchase anything extra here, just set up a special mobile application from Oculus. We are offered a fully portable standalone VR headset.

The Oculus Quest ships with two controllers that are very similar to those used with the Rift. At CES 2019, everyone had the opportunity to test the gadget in Superhot and Project Tennis Scramble, everyone was surprised by its performance. The device is compatible with the top platform games of 2018: Moss, The Climb and Vader Immortal. Given that the titles are suitable for mid-range headsets, other interesting games that have been released for PC or PSVR can be played on the Quest.

The cost of Oculus Quest is not very high, the price declared by the manufacturer is about 23,000 rubles. I think Quest has good prospects.

HTC Vive Pro Eye

HTC Vive Pro is considered the best VR headset you can find on the market. But it has a high cost, which is why not everyone can afford such a purchase. At CES 2019, HTC announced a more budget-friendly version of the Vive Pro Eye.

HTC Vive Pro Eye

The HTC Vive Pro Eye model is essentially the same Vive Pro, but with one important feature – there is Tobii eye tracking. With this feature, virtual reality eyes give us the ability to control the entire gameplay through eye movements.

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A summary of the new DEXP Ixion smartphones

A summary of the new DEXP Ixion smartphones

A modern smartphone is no longer just a phone with additional functions, it is a universal gadget for performing all important tasks. Users decide for themselves what is more important for them – a good camera, a "nimble" processor or a large screen, but, as a rule, the list of requirements for each contains the word "autonomy" or "battery". And this is understandable, because being without the usual "mobile comfort" is always unpleasant, and carrying a spare battery is not always convenient.

In 2015, the Russian brand DEXP released a whole line of Android smartphones with enhanced batteries and a wide variety of features, among which it is easy to choose a device to your taste. In addition, the price is also pleasing, which for most new products does not cross the line of 10,000 rubles.

Now there are more than ten models in the DEXP Ixion line. Here are the most noteworthy new items that went on sale this fall.

DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce

DEXP Ixion XL140 Flash

Usually, budget models are called small smartphones with bad screens, weak processors and nominal cameras. In the case of DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce, the size is not a tribute to savings, but a "trick" for those who are tired of smartphones that do not fit in their pocket. Their screens are 4-inch, with high-quality IPS matrices, but a modest resolution of 800 x 480 pixels. However, this resolution is quite enough for this diagonal. Smartphones have the same cameras: the main one with a resolution of 8 megapixels, the front one with a resolution of 2 megapixels. In both cases, two SIM cards are supported, there is Wi-Fi, Bluetooth, GPS and a 3G modem. The battery capacity is 3000 mAh (one and a half to two times more than that of iPhones).

DEXP Ixion XL240 Triforce

The differences relate to hardware platforms. DEXP Ixion XL140 Flash is based on MediaTek MT6735 and offers quad-core processor, DEXP Ixion XL240 Triforce uses MediaTek MT6592M with octa-core processor. Therefore, the second model is suitable for lovers of resource-intensive applications. However, both options support Full-HD video playback and many modern 3D games.

DEXP Ixion XL140 Flash also supports LTE – fourth generation networks. And when choosing a small, but high-quality and modern smartphone, this model is better for those who need high-speed Internet access.

DEXP Ixion XL140 Flash: fast internet, weaker processor.

DEXP Ixion XL240 Triforce: only supports 2G and 3G cellular networks, but does not slow down demanding applications.

The price of each model is 6,490 rubles.

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DEXP Ixion M350 Rock

DEXP Ixion M350 Rock

This is a smartphone for music lovers. For music lovers who will be satisfied with the sound quality in headphones thanks to the NXP music chip, designed specifically for mobile devices, and for those who would like to use their smartphone as a music center, for this it is equipped with a 2 W speaker, originally developed by for laptops.

DEXP Ixion M350 Rock

But besides the musical merits, the DEXP Ixion M350 Rock has others. For example, a 5-inch IPS display with a resolution of 1280 x 720 pixels, as well as a modern MediaTek MT6735P platform with a quad-core processor and Mali-T720 MP1 graphics. The amount of RAM is 1 GB. All this makes it possible to play even the most demanding 3D games.

DEXP Ixion M350 Rock runs the latest version of Android 5.1 Lollipop by default. Of course, the smartphone works with two SIM cards, supports Wi-Fi and Bluetooth, has two cameras (5 and 8 MP) and also supports data transfer in 4G (LTE) networks. But the main competitive advantage of the model is a decent-capacity 3140 mAh battery, which provides up to 60 hours of music playback.

The price of a pocket music center called DEXP Ixion M350 Rock is 8,490 rubles.

DEXP Ixion P145 Dominator

DEXP Ixion P145 Dominator

DEXP Ixion P145 Dominator is a smartphone for people who want to enjoy all the advantages of modern gadgets outside the city. He looks stern and brutal, but this is not just an image. Ixion P145 Dominator is like an SUV among smartphones, it is adapted to the most severe operating conditions. The body of the device is protected in accordance with the IP67 class. This is almost the maximum for consumer solutions. The first number means full dust tightness, the second one means protection against immersion in water.

However, there are many smartphones designed for hiking, fishing and hunting. What makes the DEXP Ixion P145 Dominator stand out?

Firstly, this is a full-fledged competitive model without significant compromises in terms of performance. Screen with a 4.5-inch IPS matrix, Gorilla Glass 2 protection and qHD resolution (960 x 540 pixels), MediaTek MT6589 platform, 8-megapixel autofocus camera. Agree, far from civilization there are beautiful places that I would like to capture in good quality, and a quad-core processor will ensure high-quality video viewing on dark nights in a tent.

Secondly, this smartphone can last longer than many others, because it uses a 4200 mAh battery, providing up to five days of full use without connecting to a power outlet.

Thirdly, the DEXP Ixion P145 Dominator has a Walkie-Talkie radio and a completely unexpected bonus for a smartphone – a laser pointer.

Usually, models with this level of protection are 2-2.5 times more expensive than their "urban" counterparts. DEXP Ixion P145 Dominator is an exception to this rule.

The price of DEXP Ixion P145 Dominator, an SUV among smartphones, is 15,990 rubles.

DEXP Ixion ML145 Snatch SE

DEXP Ixion ML145 Snatch SE

This is a simplified version of the previously released DEXP Ixion XL145 Snatch. In order to reduce the cost of the popular smartphone, manufacturers took a few small steps back: they installed a slightly simpler screen – with a diagonal of 4.5 inches, the resolution is 854 x 480 pixels, used a 5 MP camera instead of 8 MP, replaced the eight-core MediaTek MT6592 platform with a quad-core MediaTek MT6582M. Most users who buy a smartphone not for the latest gaming innovations, but, say, for watching videos and chatting online, will not even notice these changes.

The battery capacity of the DEXP Ixion ML145 Snatch SE remains the same as its older version, and with less "gluttonous hardware" this provides the model with even greater autonomy. In addition, the price of the device has become lower.

The cost of a small but "strong" Snatch SE is 5,990 rubles.

DEXP Ixion MS150 Glider

DEXP Ixion MS150 Glider

This smartphone features a stunning 1280 x 720 pixel 5-inch IPS+OGS display (thinner than conventional screens with perfect viewing angles). Users for whom a beautiful picture is important will be satisfied. The quad-core processor of the MediaTek MT6582M platform and 1 GB of RAM will ensure a decent smoothness of the picture displayed on the display, both in games and in ordinary applications or movies.

DEXP Ixion MS150 Glider supports two SIM-cards, in the settings of which you can choose what each of them will be used for – calls or data transfer. Of course, there is Wi-Fi, Bluetooth, 3G and a GPS receiver.

The battery is not the most powerful in the DEXP Ixion line, but even its capacity (2500 mAh) is still larger than the capacity of smartphone batteries from other manufacturers.

The price of DEXP Ixion MS150 Glider, equipped with an excellent screen, is 7,490 rubles.

In general, the similarity of the models makes you think and set your priorities more precisely.

The junior representative of the "sub-series" DEXP Ixion EL250 Amper E is priced at 8,490 rubles. The senior DEXP Ixion ML150 Amper M costs 10,990 rubles.

Summary

The Russian brand DEXP does not stop there and continues to release more and more new models within the DEXP Ixion line – smartphones with enhanced batteries. A wide variety makes it possible to choose a model according to your needs and tastes, while the cost is very moderate, and you can ignore the battery parameters at all, since a decent battery is installed in each model.

Now DEXP actually sets the tone in the niche of long-lived smartphones, and sooner or later other manufacturing companies will have to reckon with this trend.

A summary of the new DEXP Ixion smartphones

A modern smartphone is no longer just a phone with additional functions, it is a universal gadget for performing all important tasks. Users decide for themselves what is more important for them – a good camera, a "nimble" processor or a large screen, but, as a rule, the list of requirements for each contains the word "autonomy" or "battery". And this is understandable, because being without the usual "mobile comfort" is always unpleasant, and carrying a spare battery is not always convenient.

In 2015, the Russian brand DEXP released a whole line of Android smartphones with enhanced batteries and a wide variety of features, among which it is easy to choose a device to your taste. In addition, the price is also pleasing, which for most new products does not cross the line of 10,000 rubles.

Now there are more than ten models in the DEXP Ixion line. Here are the most noteworthy new items that went on sale this fall.

DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce

DEXP Ixion XL140 Flash

Usually, budget models are called small smartphones with bad screens, weak processors and nominal cameras. In the case of DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce, the size is not a tribute to savings, but a "trick" for those who are tired of smartphones that do not fit in their pocket. Their screens are 4-inch, with high-quality IPS matrices, but a modest resolution of 800 x 480 pixels. However, this resolution is quite enough for this diagonal. Smartphones have the same cameras: the main one with a resolution of 8 megapixels, the front one with a resolution of 2 megapixels. In both cases, two SIM cards are supported, there is Wi-Fi, Bluetooth, GPS and a 3G modem. The battery capacity is 3000 mAh (one and a half to two times more than that of iPhones).

DEXP Ixion XL240 Triforce

The differences relate to hardware platforms. DEXP Ixion XL140 Flash is based on MediaTek MT6735 and offers quad-core processor, DEXP Ixion XL240 Triforce uses MediaTek MT6592M with octa-core processor. Therefore, the second model is suitable for fans of resource-intensive applications. However, both options support Full-HD video playback and many modern 3D games.

DEXP Ixion XL140 Flash also supports LTE – fourth generation networks. And when choosing a small, but high-quality and modern smartphone, this model is better for those who need high-speed Internet access.

DEXP Ixion XL140 Flash: fast internet, weaker processor.

DEXP Ixion XL240 Triforce: only supports 2G and 3G cellular networks, but does not slow down demanding applications.

The price of each model is 6,490 rubles.

DEXP Ixion M350 Rock

DEXP Ixion M350 Rock

This is a smartphone for music lovers. For music lovers who will be satisfied with the sound quality in headphones thanks to the NXP music chip, designed specifically for mobile devices, and for those who would like to use their smartphone as a music center, for this it is equipped with a 2 W speaker, originally developed by for laptops.

However, there are many smartphones designed for hiking, fishing and hunting. What makes the DEXP Ixion P145 Dominator stand out?

Firstly, this is a full-fledged competitive model without significant compromises in terms of performance. Screen with a 4.5-inch IPS matrix, Gorilla Glass 2 protection and qHD resolution (960 x 540 pixels), MediaTek MT6589 platform, 8-megapixel autofocus camera. Agree, far from civilization there are beautiful places that I would like to capture in good quality, and a quad-core processor will ensure high-quality video viewing on dark nights in a tent.

Secondly, this smartphone can last longer than many others, because it uses a 4200 mAh battery, providing up to five days of full use without connecting to a power outlet.

Thirdly, the DEXP Ixion P145 Dominator has a Walkie-Talkie radio and a completely unexpected bonus for a smartphone – a laser pointer.

Usually, models with this level of protection are 2-2.5 times more expensive than their "urban" counterparts. DEXP Ixion P145 Dominator is an exception to this rule.

The price of DEXP Ixion P145 Dominator, an SUV among smartphones, is 15,990 rubles.

DEXP Ixion ML145 Snatch SE

DEXP Ixion ML145 Snatch SE

This is a simplified version of the previously released DEXP Ixion XL145 Snatch. In order to reduce the cost of the popular smartphone, manufacturers took a few small steps back: they installed a slightly simpler screen – with a diagonal of 4.5 inches, the resolution is 854 x 480 pixels, used a 5 MP camera instead of 8 MP, replaced the eight-core MediaTek MT6592 platform with a quad-core MediaTek MT6582M. Most users who buy a smartphone not for the latest gaming innovations, but, say, for watching videos and chatting online, will not even notice these changes.

The battery capacity of the DEXP Ixion ML145 Snatch SE remains the same as its older version, and with less "gluttonous hardware" this provides the model with even greater autonomy. In addition, the price of the device has become lower.

The cost of a small but "strong" Snatch SE is 5,990 rubles.

DEXP Ixion MS150 Glider

DEXP Ixion MS150 Glider

This smartphone features a stunning 1280 x 720 pixel 5-inch IPS+OGS display (thinner than conventional screens with perfect viewing angles). Users for whom a beautiful picture is important will be satisfied. The quad-core processor of the MediaTek MT6582M platform and 1 GB of RAM will ensure a decent smoothness of the picture displayed on the display, both in games and in ordinary applications or movies.

DEXP Ixion MS150 Glider supports two SIM-cards, in the settings of which you can choose what each of them will be used for – calls or data transfer. Of course, there is Wi-Fi, Bluetooth, 3G and a GPS receiver.

The battery is not the most powerful in the DEXP Ixion line, but even its capacity (2500 mAh) is still larger than the capacity of smartphone batteries from other manufacturers.

The price of DEXP Ixion MS150 Glider, equipped with an excellent screen, is 7,490 rubles.

DEXP Ixion EL250 Amper E and DEXP Ixion ML150 Amper M

DEXP Ixion EL250 Amper E

Two very similar outwardly models of the same "sub-series" Amper, practically twin brothers. They have the same set of standard features: MediaTek MT6735 quad-core platforms, Wi-Fi, Bluetooth, LTE, Android 5.1 Lollipop operating system and a battery with an almost maximum capacity of 5200 mAh for the smartphone market.

The differences – and significant ones – are in the rest of the parameters. The DEXP Ixion EL250 Amper E has one gigabyte of RAM, the DEXP Ixion ML150 Amper M has two. The screen resolution of Amper E is 854 x 480 pixels, while Amper M has a higher resolution of 1280 x 720 pixels with the same diagonal. The younger model has a main camera resolution of 5 megapixels, the older one has as much as 13 MP. DEXP Ixion ML150 Amper M, in addition to the GPS geopositioning system, also supports GLONASS. The quad-core chipsets of smartphones are also different: DEXP Ixion EL250 Amper E – MediaTek MT6735M with a frequency of 1 GHz, while DEXP Ixion ML150 Amper M – MT6735A with a frequency of 1.3 GHz.

DEXP Ixion EL250 Amper E

In general, the similarity of the models makes you think and set your priorities more precisely.

The junior representative of the "sub-series" DEXP Ixion EL250 Amper E is priced at 8,490 rubles. The senior DEXP Ixion ML150 Amper M costs 10,990 rubles.

Summary

The Russian brand DEXP does not stop there and continues to release more and more new models within the DEXP Ixion line – smartphones with enhanced batteries. A wide variety makes it possible to choose a model according to your needs and tastes, while the cost is very moderate, and you can ignore the battery parameters at all, since a decent battery is installed in each model.

Now DEXP actually sets the tone in the niche of long-lived smartphones, and sooner or later other manufacturing companies will have to reckon with this trend.

A summary of the new DEXP Ixion smartphones

A modern smartphone is no longer just a phone with additional functions, it is a universal gadget for performing all important tasks. Users decide for themselves what is more important for them – a good camera, a "nimble" processor or a large screen, but, as a rule, the list of requirements for each contains the word "autonomy" or "battery". And this is understandable, because being without the usual "mobile comfort" is always unpleasant, and carrying a spare battery is not always convenient.

In 2015, the Russian brand DEXP released a whole line of Android smartphones with enhanced batteries and a wide variety of features, among which it is easy to choose a device to your taste. In addition, the price is also pleasing, which for most new products does not cross the line of 10,000 rubles.

Now there are more than ten models in the DEXP Ixion line. Here are the most noteworthy new items that went on sale this fall.

DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce

DEXP Ixion XL140 Flash

Usually, budget models are called small smartphones with bad screens, weak processors and nominal cameras. In the case of DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce, the size is not a tribute to savings, but a "trick" for those who are tired of smartphones that do not fit in their pocket. Their screens are 4-inch, with high-quality IPS matrices, but a modest resolution of 800 x 480 pixels. However, for this diagonal this resolution is quite enough. Smartphones have the same cameras: the main one with a resolution of 8 megapixels, the front one with a resolution of 2 megapixels. In both cases, two SIM cards are supported, there is Wi-Fi, Bluetooth, GPS and a 3G modem. The battery capacity is 3000 mAh (one and a half to two times more than that of iPhones).

DEXP Ixion XL240 Triforce

The differences relate to hardware platforms. DEXP Ixion XL140 Flash is based on MediaTek MT6735 and offers quad-core processor, DEXP Ixion XL240 Triforce uses MediaTek MT6592M with octa-core processor. Therefore, the second model is suitable for fans of resource-intensive applications. However, both options support Full-HD video playback and many modern 3D games.

DEXP Ixion XL140 Flash also supports LTE – fourth generation networks. And when choosing a small, but high-quality and modern smartphone, this model is better for those who need high-speed Internet access.

DEXP Ixion XL140 Flash: fast internet, weaker processor.

DEXP Ixion XL240 Triforce: only supports 2G and 3G cellular networks, but does not slow down demanding applications.

The price of each model is 6,490 rubles.

DEXP Ixion M350 Rock

DEXP Ixion M350 Rock

This is a smartphone for music lovers. For music lovers who will be satisfied with the sound quality in headphones thanks to the NXP music chip, designed specifically for mobile devices, and for those who would like to use their smartphone as a music center, for this it is equipped with a 2 W speaker, originally developed by for laptops.

DEXP Ixion M350 Rock

But besides the musical merits, the DEXP Ixion M350 Rock has others. For example, a 5-inch IPS display with a resolution of 1280 x 720 pixels, as well as a modern MediaTek MT6735P platform with a quad-core processor and Mali-T720 MP1 graphics. The amount of RAM is 1 GB. All this makes it possible to play even the most demanding 3D games.

DEXP Ixion M350 Rock runs the latest version of Android 5.1 Lollipop by default. Of course, the smartphone works with two SIM cards, supports Wi-Fi and Bluetooth, has two cameras (5 and 8 MP) and also supports data transfer in 4G (LTE) networks. But the main competitive advantage of the model is a decent-capacity 3140 mAh battery, which provides up to 60 hours of music playback.

The price of a pocket music center called DEXP Ixion M350 Rock is 8,490 rubles.

DEXP Ixion P145 Dominator

DEXP Ixion P145 Dominator

DEXP Ixion P145 Dominator is a smartphone for people who want to enjoy all the advantages of modern gadgets outside the city. He looks stern and brutal, but this is not just an image. Ixion P145 Dominator is like an SUV among smartphones, it is adapted to the most severe operating conditions. The body of the device is protected in accordance with the IP67 class. This is almost the maximum for consumer solutions. The first number means full dust tightness, the second one means protection against immersion in water.

However, there are many smartphones designed for hiking, fishing and hunting. What makes the DEXP Ixion P145 Dominator stand out?

Firstly, this is a full-fledged competitive model without significant compromises in terms of performance. Screen with a 4.5-inch IPS matrix, Gorilla Glass 2 protection and qHD resolution (960 x 540 pixels), MediaTek MT6589 platform, 8-megapixel autofocus camera. Agree, far from civilization there are beautiful places that I would like to capture in good quality, and a quad-core processor will ensure high-quality video viewing on dark nights in a tent.

Secondly, this smartphone can last longer than many others, because it uses a 4200 mAh battery, providing up to five days of full use without connecting to a power outlet.

Thirdly, the DEXP Ixion P145 Dominator has a Walkie-Talkie radio and a completely unexpected bonus for a smartphone – a laser pointer.

Usually, models with this level of protection are 2-2.5 times more expensive than their "urban" counterparts. DEXP Ixion P145 Dominator is an exception to this rule.

The price of DEXP Ixion P145 Dominator, an SUV among smartphones, is 15,990 rubles.

DEXP Ixion ML145 Snatch SE

DEXP Ixion ML145 Snatch SE

This is a simplified version of the previously released DEXP Ixion XL145 Snatch. In order to reduce the cost of the popular smartphone, manufacturers took a few small steps back: they installed a slightly simpler screen – with a diagonal of 4.5 inches, the resolution is 854 x 480 pixels, used a 5 MP camera instead of 8 MP, replaced the eight-core MediaTek MT6592 platform with a quad-core MediaTek MT6582M. Most users who buy a smartphone not for the latest gaming innovations, but, say, for watching videos and chatting online, will not even notice these changes.

The battery capacity of the DEXP Ixion ML145 Snatch SE remains the same as its older version, and with less "gluttonous hardware" this provides the model with even greater autonomy. In addition, the price of the device has become lower.

The cost of a small but "strong" Snatch SE is 5,990 rubles.

DEXP Ixion MS150 Glider

DEXP Ixion MS150 Glider

This smartphone features a stunning 1280 x 720 pixel 5-inch IPS+OGS display (thinner than conventional screens with perfect viewing angles). Users for whom a beautiful picture is important will be satisfied. The quad-core processor of the MediaTek MT6582M platform and 1 GB of RAM will ensure a decent smoothness of the picture displayed on the display, both in games and in ordinary applications or movies.

DEXP Ixion MS150 Glider supports two SIM-cards, in the settings of which you can choose what each of them will be used for – calls or data transfer. Of course, there is Wi-Fi, Bluetooth, 3G and a GPS receiver.

The battery is not the most powerful in the DEXP Ixion line, but even its capacity (2500 mAh) is still larger than the capacity of smartphone batteries from other manufacturers.

The price of DEXP Ixion MS150 Glider, equipped with an excellent screen, is 7,490 rubles.

DEXP Ixion EL250 Amper E and DEXP Ixion ML150 Amper M

DEXP Ixion EL250 Amper E

Two very similar outwardly models of the same "sub-series" Amper, practically twin brothers. They have the same set of standard features: MediaTek MT6735 quad-core platforms, Wi-Fi, Bluetooth, LTE, Android 5.1 Lollipop operating system and a battery with an almost maximum capacity of 5200 mAh for the smartphone market.

The differences – and significant ones – are in the rest of the parameters. The DEXP Ixion EL250 Amper E has one gigabyte of RAM, the DEXP Ixion ML150 Amper M has two. The screen resolution of Amper E is 854 x 480 pixels, while Amper M has a higher resolution of 1280 x 720 pixels with the same diagonal. The younger model has a main camera resolution of 5 megapixels, the older one has as much as 13 MP. DEXP Ixion ML150 Amper M, in addition to the GPS geopositioning system, also supports GLONASS. The quad-core chipsets of smartphones are also different: DEXP Ixion EL250 Amper E – MediaTek MT6735M with a frequency of 1 GHz, while DEXP Ixion ML150 Amper M – MT6735A with a frequency of 1.3 GHz.

DEXP Ixion EL250 Amper E

In general, the similarity of the models makes you think and set your priorities more precisely.

The junior representative of the "sub-series" DEXP Ixion EL250 Amper E is priced at 8,490 rubles. The senior DEXP Ixion ML150 Amper M costs 10,990 rubles.

Summary

The Russian brand DEXP does not stop there and continues to release more and more new models within the DEXP Ixion line – smartphones with enhanced batteries. A wide variety makes it possible to choose a model according to your needs and tastes, while the cost is very moderate, and you can ignore the battery parameters at all, since a decent battery is installed in each model.

Now DEXP actually sets the tone in the niche of long-lived smartphones, and sooner or later other manufacturing companies will have to reckon with this trend.

A summary of the new DEXP Ixion smartphones

A modern smartphone is no longer just a phone with additional functions, it is a universal gadget for performing all important tasks. Users decide for themselves what is more important for them – a good camera, a "nimble" processor or a large screen, but, as a rule, the list of requirements for each contains the word "autonomy" or "battery". And this is understandable, because being without the usual "mobile comfort" is always unpleasant, and carrying a spare battery is not always convenient.

In 2015, the Russian brand DEXP released a whole line of Android smartphones with enhanced batteries and a wide variety of features, among which it is easy to choose a device to your taste. In addition, the price is also pleasing, which for most new products does not cross the line of 10,000 rubles.

Now there are more than ten models in the DEXP Ixion line. Here are the most noteworthy new items that went on sale this fall.

DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce

Usually, budget models are called small smartphones with bad screens, weak processors and nominal cameras. In the case of DEXP Ixion XL140 Flash and DEXP Ixion XL240 Triforce, the size is not a tribute to savings, but a "trick" for those who are tired of smartphones that do not fit in their pocket. Their screens are 4-inch, with high-quality IPS matrices, but a modest resolution of 800 x 480 pixels. However, this resolution is quite enough for this diagonal. Smartphones have the same cameras: the main one with a resolution of 8 megapixels, the front one with a resolution of 2 megapixels. In both cases, two SIM cards are supported, there is Wi-Fi, Bluetooth, GPS and a 3G modem. The battery capacity is 3000 mAh (one and a half to two times more than that of iPhones).

However, there are many smartphones designed for hiking, fishing and hunting. What makes the DEXP Ixion P145 Dominator stand out?

Firstly, this is a full-fledged competitive model without significant compromises in terms of performance. Screen with a 4.5-inch IPS matrix, Gorilla Glass 2 protection and qHD resolution (960 x 540 pixels), MediaTek MT6589 platform, 8-megapixel autofocus camera. Agree, far from civilization there are beautiful places that I would like to capture in good quality, and a quad-core processor will ensure high-quality video viewing on dark nights in a tent.

Secondly, this smartphone can last longer than many others, because it uses a 4200 mAh battery, providing up to five days of full use without connecting to a power outlet.

Thirdly, the DEXP Ixion P145 Dominator has a Walkie-Talkie radio and a completely unexpected bonus for a smartphone – a laser pointer.

Usually, models with this level of protection are 2-2.5 times more expensive than their "urban" counterparts. DEXP Ixion P145 Dominator is an exception to this rule.

The price of DEXP Ixion P145 Dominator, an SUV among smartphones, is 15,990 rubles.

DEXP Ixion ML145 Snatch SE

This is a simplified version of the previously released DEXP Ixion XL145 Snatch. In order to reduce the cost of the popular smartphone, manufacturers took a few small steps back: they installed a slightly simpler screen – with a diagonal of 4.5 inches, the resolution is 854 x 480 pixels, used a 5 MP camera instead of 8 MP, replaced the eight-core MediaTek MT6592 platform with a quad-core MediaTek MT6582M. Most users who buy a smartphone not for the latest gaming innovations, but, say, for watching videos and chatting online, will not even notice these changes.

The battery capacity of the DEXP Ixion ML145 Snatch SE remains the same as its older version, and with less "gluttonous hardware" this provides the model with even greater autonomy. In addition, the price of the device has become lower.

The cost of a small but "strong" Snatch SE is 5,990 rubles.

DEXP Ixion MS150 Glider

This smartphone features a stunning 1280 x 720 pixel 5-inch IPS+OGS display (thinner than conventional screens with perfect viewing angles). Users for whom a beautiful picture is important will be satisfied. The quad-core processor of the MediaTek MT6582M platform and 1 GB of RAM will ensure a decent smoothness of the picture displayed on the display, both in games and in ordinary applications or movies.

DEXP Ixion MS150 Glider supports two SIM-cards, in the settings of which you can choose what each of them will be used for – calls or data transfer. Of course, there is Wi-Fi, Bluetooth, 3G and a GPS receiver.

The battery is not the most powerful in the DEXP Ixion line, but even its capacity (2500 mAh) is still larger than the capacity of smartphone batteries from other manufacturers.

The price of DEXP Ixion MS150 Glider, equipped with an excellent screen, is 7,490 rubles.

DEXP Ixion EL250 Amper E and DEXP Ixion ML150 Amper M

Two very similar outwardly models of the same "sub-series" Amper, practically twin brothers. They have the same set of standard features: MediaTek MT6735 quad-core platforms, Wi-Fi, Bluetooth, LTE, Android 5.1 Lollipop operating system and a battery with an almost maximum capacity of 5200 mAh for the smartphone market.

The differences – and significant ones – are in the rest of the parameters. The DEXP Ixion EL250 Amper E has one gigabyte of RAM, the DEXP Ixion ML150 Amper M has two. The screen resolution of Amper E is 854 x 480 pixels, while Amper M has a higher resolution of 1280 x 720 pixels with the same diagonal. The younger model has a main camera resolution of 5 megapixels, the older one has as much as 13 MP. DEXP Ixion ML150 Amper M, in addition to the GPS geopositioning system, also supports GLONASS. The quad-core chipsets of smartphones are also different: DEXP Ixion EL250 Amper E – MediaTek MT6735M with a frequency of 1 GHz, while DEXP Ixion ML150 Amper M – MT6735A with a frequency of 1.3 GHz.

In general, the similarity of the models makes you think and set your priorities more precisely.

The junior representative of the "sub-series" DEXP Ixion EL250 Amper E is priced at 8,490 rubles. The senior DEXP Ixion ML150 Amper M costs 10,990 rubles.

Summary

The Russian brand DEXP does not stop there and continues to release more and more new models within the DEXP Ixion line – smartphones with enhanced batteries. A wide variety makes it possible to choose a model according to your needs and tastes, while the cost is very moderate, and you can ignore the battery parameters at all, since a decent battery is installed in each model.

Now DEXP actually sets the tone in the niche of long-lived smartphones, and sooner or later other manufacturing companies will have to reckon with this trend.

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“Electrification. 100 years of the GOELRO plan. The most lamp show

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that electric lighting is something taken for granted. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. An example of the former is a call to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, calling upon you God’s grace, I ask you to accept archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy by your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. "What kind of demonic machinations overtook the apostate Krzhizhanovsky Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibilities of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible in Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that electric lighting is a matter of course. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. An example of the former is a call to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, calling upon you God’s grace, I ask you to accept archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy by your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. "What kind of demonic machinations overtook the apostate Krzhizhanovsky Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibilities of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible in Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that https://tonaton.co.ke/c_real-estate electric lighting is something taken for granted. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. An example of the former is a call to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, calling upon you God’s grace, I ask you to accept archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy by your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. "What kind of demonic machinations overtook the apostate Krzhizhanovsky Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibilities of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible in Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to the First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that electric lighting is a matter of course. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. As an example of the first, we can cite an appeal to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: on the estates, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy with your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. What kind of demonic machinations overtook the apostate Krzhizhanovsky comrades? Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibility of using the water resources of the Volga River in the Samarskaya Luka area.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. As an example of the first, one can refer to Drying Racks in Uganda Drying Racks in Uganda Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, invoking God’s grace on you, I ask you to accept the archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing a building dam and a large power plant. Show mercy with your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. What kind of demonic machinations overtook the apostate Krzhizhanovsky comrades? Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibility of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible at Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

Posted on Leave a comment

“Electrification. 100 years of the GOELRO plan. The most lamp show

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that electric lighting is something taken for granted. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. An example of the former is a call to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, calling upon you God’s grace, I ask you to accept archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy by your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. "What kind of demonic machinations overtook the apostate Krzhizhanovsky Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibilities of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible in Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more https://tonaton.com/c_babies-and-kids power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that electric lighting is a matter of course. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. An example of the former is a call to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, calling upon you God’s grace, I ask you to accept archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy by your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. "What kind of demonic machinations overtook the apostate Krzhizhanovsky Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibilities of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible in Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that electric lighting is something taken for granted. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. An example of the former is a call to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, calling upon you God’s grace, I ask you to accept archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy by your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. "What kind of demonic machinations overtook the apostate Krzhizhanovsky Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibilities of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible in Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

“Electrification. 100 years of the GOELRO plan. The most lamp show

Some things we tend to take for granted. Or even as it has always been. However, they all have their own beginning, which was simply forgotten behind the prescription of years or more significant events. We are accustomed to attribute the availability of electricity in our home to such self-evident facts. Moreover, the vast majority have no idea what is behind the simple phrase "connect to the power grid." Meanwhile, even a hundred years ago, the situation was much more complicated.

For starters, it's a good idea to remember that until the 19th century, the whole world did not use electricity. Yes, one can recall individual experiences, but, in fact, from the time of the pharaohs to Napoleon, who contributed a lot to digging out these same pharaohs from under the millennia-old sands, electricity was nothing more than entertainment for an inquisitive mind at leisure for mankind. The turning point came only in the second half of the 19th century, when the first generators appeared capable of generating electric current on a permanent basis.

Alessandro Volta demonstrates experiments on electricity to the First Consul Bonaparte. The possibility of practical application is clearly visible on the face of Napoleon. (image taken from kunst-fuer-alle.de)

However, this phenomenon was very far from how we now imagine both the power grid and the use of electricity. Let's start with the fact that neither scientific nor practical experience for a long time gave an answer to the question of how to transfer electricity from the producer to the consumer without acceptable losses. Therefore, the first power plants were something like a modern emergency gas generator – they were located next to the facility where this electricity was required. Secondly, it seems from the position of today that electric lighting is a matter of course. At first, illumination was just illumination, and not a natural way to illuminate a dwelling or production facility.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. As an example of the first, we can cite an appeal to Drying Racks in Uganda to Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: on the estates, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing the construction of a dam and a large power plant. Show mercy with your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. What kind of demonic machinations overtook the apostate Krzhizhanovsky comrades? Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibility of using the water resources of the Volga River in the Samarskaya Luka area.

But the biggest problem was not even the "backwardness" of science, but the inertia of thinking and the lack of practical experience sufficient to make an informed decision. As an example of the first, one can refer to Drying Racks in Uganda Drying Racks in Uganda Deputy of the IV State Duma Count Alexei Orlov-Davydov from Bishop Simeon of Samara and Stavropol in 1913: “Your Excellency, invoking God’s grace on you, I ask you to accept the archpastoral notice: on your hereditary ancestral possessions, the projectors of the Samara Technical Society, together with the apostate engineer Krzhizhanovsky, are designing a building dam and a large power plant. Show mercy with your arrival to preserve God's peace in the Zhiguli possessions and destroy sedition in conception. What kind of demonic machinations overtook the apostate Krzhizhanovsky comrades? Yes, in general, nothing special happened – they were developing, including with geodetic reconnaissance of the area, in order to find out the possibility of using the water resources of the Volga River in the Samarskaya Luka area.

As examples of the second, we can recall how electric lighting was introduced on ships. The first ship in the world to be “completely” (in fact, not all interiors had electric lights) was illuminated by electricity was the British battleship Inflexible. To begin with, the Royal Admiralty approved an interesting composition of lamps for lighting: it consisted of chains of 19 lamps, each of which had one arc lamp and 18 incandescent lamps. But the engineering mind didn't stop there. The lamps were connected in series in a circuit, each with its own switch. Thus, a part of the ship could lose lighting not only due to a burnt out light bulb, but simply because someone did not turn the switch on time. Do you think that the absurdity of the design ended there? No matter how. This circuit was powered by direct current with a voltage of 800 volts, the wires were without insulation, but on insulators. By today's standards, not a ship, but a floating electric chair. Therefore, it is no wonder that he was not only the first ship with electric lighting, but also the first ship to electric kill. However, only his own team.

HMS Inflexible at Portsmouth. Electric lighting was far from the only "original" detail of his design. (Image taken from wikipedia.org)

By the beginning of the 20th century, the number of such tragicomic situations began to decline, but it was still very far from what we now consider electrification. Cases when two or more power plants worked in parallel on the same network did not go beyond the limits of single experiments. The benefits of such work did not seem so obvious, theoretical calculations caused skepticism among those responsible for practical implementation. And besides, there were already quite a few power plants around the world, almost each of which produced its own unique current, which differed both in current-voltage characteristics and in frequency, if it came to alternating current. It was simply impossible to bring them into a single network without reconstructing one or another complexity.

The situation could be saved by the mass market for electrical goods, which would require standardization, but it simply did not exist. The main consumers were industrial enterprises and electric vehicles, which could perfectly exist in isolation from each other and form orders for equipment based on their unique characteristics. After all, serial production, when goods are mass-produced on a unified production line, was also still absent. Therefore, changing the characteristics of the output current for the production of the same generators had almost no effect on the cost of the product.

Changes began during the First World War, which spurred mass production and put the need for economical use of resources at the forefront. In many ways, the industry with which the whole world approached the beginning of the digital age was basically the brainchild of the Great War.

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Review of GSM/UMTS-smartphone Blackberry Bold 9700 (BOLD 2)

Review of GSM/UMTS-smartphone Blackberry Bold 9700 (BOLD 2)

The name BOLD 2 stuck to this model, although officially the phone should be called simply BOLD, you can also remember its number – 9700. Logically, this device should be considered as a replacement for Bold 9000 and there are all prerequisites for this, quantitatively increased the characteristics , the design resembles the previous model, and the positioning is by and large the same. But here I would argue, since RIM decided to deliberately change the size of the device, it was reduced and, accordingly, not only the case, but, as a result, the keyboard was made more compact. When comparing Bold and Curve, I was always captivated by the chic keyboard on the older model, Curve was not so comfortable and resembled all kinds of QWERTY devices from other manufacturers, for example, the same Nokia E71. Of course, the comparison is not about functionality, but only about the keyboard. In the Bold 9700, the size is close to the Curve, and this can be interpreted by many as a drawback of the device. It turned out a strange combination of two models at once, this is a continuation of both Bold and Curve. Moreover, for Curve owners, its replacement with Bold 9700 looks justified and interesting.

The positioning of this phone is unambiguous and does not accept double interpretations, a business phone that provides maximum integration with your mail, no matter what solutions you would use in your organization. A comfortable keyboard that outperforms, if not by a head, then solutions from other companies. There is a Blackberry, and there are other phones. The world, perhaps, is divided in this way in the segment of QWERTY-devices. And this is hardly an exaggeration. For those who type a lot on the keyboard, constantly in touch, the choice is limited to Blackberry, either touch solutions or side sliders with a large keyboard (for example, Nokia E7, HTC Desire Z).

https://tonaton.co.ke/c_accessories

In Russia, the positioning of Blackberry is peculiar, the peak of popularity among the non-target audience has passed, now the company's devices are chosen only by those who know exactly what it is and why it is needed. It's not bad for consumers, no disappointments, but not too good for the brand. The reason for this lies in the fact that in the wake of Blackberry popularity, the prices for these devices were exorbitant, the devices competed with the Apple iPhone, and the majority chose the latter as a simpler and more understandable solution, which also had a greater image charge. Sorry.

Design, dimensions, controls

In appearance, the Bold 9700 is a typical representative of the Blackberry family, it is easy to guess the model from RIM. Size – 109 x 60 x 14 mm, weight 122 grams. The phone does not sink in the hands, easily fits into the palm of your hand. You can dial a number with one hand, as well as call from the phone book or dialed list, but at all other times, it is most convenient to work with the device with two hands.

The back cover is trimmed under the skin, it is made of plastic. Due to the embossing, the phone can be placed on an inclined surface and it will not slip. Along the side, as well as at the top of the back surface, there is a chrome-plated edging, it is also made of plastic, but it feels like metal when you look at the phone. Clutching the device in your hands, you involuntarily hold it in such a way that you can see the edging and the Bold inscription on the back.

At the top end there are two keys, this is the choice of profiles and the keyboard lock. The location is convenient.

There is a 3.5 mm jack on the left side, it is not covered by a cover, as well as the microUSB connector just below. There is also a configurable key, you can assign various applications to it, however, as well as the camera key, which is located on the right side. There is also a paired volume key on the right.

Unfortunately, unlike the Bold 9000, the device has only one speaker. It's on the back of the phone and the volume is lower than the first Bold. Serious downside? I don’t think so, given that the device literally screams at maximum volume. Another thing is that in comparison with the first model, he loses. But this is rather the merit of the engineers of the first Bold.

The indicator light is placed on the front panel, above the screen. The location is convenient, you can always see the flickering of red when the mail is not viewed.

There are no complaints about the build quality of the device, it is traditionally at an excellent level. There are no creaks or backlash.

Display

The screen diagonal is 2.44 inches, and the resolution of the TFT-matrix is ​​480×360 pixels (in Bold 9000 480×320 pixels, 2.6 inches), displays up to 65,000 colors. A slightly increased resolution is not important, the screens are perceived equally, although the diagonal is larger in the first Bold. The picture quality is excellent for this type of screen, but loses to the same Super TFT, AMOLED, Super AMOLED. This is not the latest generation screen, but a very high quality display. No requests for the title of the best. You can watch videos on it, but the diagonal is not very comfortable for this. For all basic phone functions, as well as the browser, the screen is excellent.

At least 10 lines of text fit on the screen (maximum 20 with a minimum font size in some applications), plus a status line (up to 2 lines of information). Fonts are chosen by the user for the menu at their discretion, as well as their size. This is the most customizable phone on the market for this parameter. Many visually impaired people love Blackberry for the ability to install large fonts and not have to constantly use glasses.

In the sun, the screen remains readable, there are no problems with this, the display behavior is excellent.

Keyboard

Similar to Apple Iphone 7 Plus in Nigeria Curve used an optical joystick here, by default it is set so that the scrolling is not too fast, I liked it, no thought, the speed is just right. Ditching the joystick feels weird, I got so used to it on the Bold that it took a week here to get comfortable with the joystick. As a result, I turned on the soundtrack when working with him and life improved. The decision is controversial, not everyone will like it, but you get used to it. Call the joystick uncomfortable, I can not. Rather, the correct word here is unusual. And that's the first time. Unlike the trackball, scuffs remain on the joystick, after a month they are clearly visible.

Let's get back to the QWERTY keyboard. To compare my experience, I took Nokia E72 and Bold 9000. Of course, the keyboard on the previous Bold is gorgeous, there is no doubt that this is one of the best keyboards. In the 9700, things are not so rosy, you have to get used to the fact that the keys are smaller, but other than that, there are no complaints. In Nokia E72, this keyboard wins in terms of ease of input instantly. The typing speed even for an unprepared person is higher on Blackberry. Significantly higher, otherwise it would not be worth talking about it. And one more thing – you get tired on Blackberry when you enter text less. There is no mysticism here, testing keyboards for RIM is a sacrament, which takes hundreds of thousands of man-hours. Unlike other companies.

The keys are small in size, they have a convex shape, the hand finds the desired button itself. For a couple of weeks I adapted to the blind text input on this device. Which is already good. If you like to look at the keys, the symbols are clearly visible, the white backlighting is uniform and visible in various conditions.

The bottom line is one of the best keyboards on the market in this device form factor. But it falls short of the Bold 9000, lacking the body width. If you haven't had a Bold 9000, you'll love it. Otherwise, you will have to relearn like me. And it's a painful job. Probably in the conclusions I will argue which is better, the first Bold or its update, because the keyboard plays a big role for devices of this type.

Battery

The phone has a 1550 mAh lithium-ion battery, the same as the Bold 9000. Is the standby time listed as 408 hours? Talk time up to 6 hours. For a month of using the phone, I had to test it in various modes, countries and on various networks. On average, with a very active use of the device, he quietly lives for two days. If you refuse all functions except mail, then the operating time will increase to a week. And this is in Moscow on the Beeline network, in fact, I have a device connected to Beeline services.

According to my feelings, thoroughly subjective, the operating time has increased compared to the Bold 9000, and noticeably. I think the reason for this is the new version of the OS, and despite the increased frequency of the processor, a different type of display. On the whole, I can say that among QWERTY solutions, this handset outperforms all solutions based on Symbian and Android. There are no analogues in terms of operating time under the same load for Blackberry today. The advantage is approximately twofold and in favor of the product from RIM.

Memory, memory cards

The phone has 256 MB of memory, which is enough for it to be quite fast. Not a champion, but not an outsider either. A kind of golden mean that will satisfy even demanding users.

The phone has 256 MB of memory available to the user, but microSD memory cards are not limited in size (we checked the operation of 32 GB cards, no problems). Memory cards are installed under the back cover, their "hot" replacement is supported. The card slot is unusual, it is located at an angle, which makes card installation as convenient as possible. Nowhere, except for this device, I have not seen such a design.

Communications – USB, Bluetooth, WiFi

The device works in GSM networks (850 / 900 / 1800 / 1900), as well as 3G (HSDPA 850 / 1900 / 2100).

Use a microUSB cable for PC synchronization and data transfer. USB interface – 2.0 HS. Two modes of operation – modem, as well as Mass Storage. The built-in module is Bluetooth 2.1, the following profiles are supported:

  • Advanced Audio Distribution Profile (A2DP) – stereo audio transmission over Bluetooth
  • Audio/Video Remote Control Profile (AVRCP) – control music playback from a wireless headset
  • Generic Audio/Video Distribution Profile (GAVDP)
  • Generic Access Profile (GAP)
  • Hands-Free Profile (HFP)
  • Headset Profile (HSP)
  • Enhanced Data Rate

The most demanded and some multimedia profiles have been implemented. The operation of the device with a stereo headset did not cause any complaints. The sound quality when using a stereo headset is good.

WiFi 802.11 b/ is supported. In phones for the Russian market, WiFi is blocked, this should be remembered when buying official devices.

Camera

Regular 3.2-megapixel autofocus camera with LED flash. The picture quality is good, but not the best possible. Not the worst option, however, you can see for yourself:

Video. The device records video at a maximum resolution of 480×360 pixels, it is optimized for the device screen and viewing on it. Nothing special, just a normal video.

The device has a built-in GPS, it starts up pretty quickly. Unfortunately, Blackberry's maps and navigation software are quite simple, clearly outperforming both OVI Maps and solutions from other companies. Occasionally it is quite possible to look at something on the map, but it is constantly inconvenient to use it. Therefore, if you need navigation, then perhaps you should look at a device other than Blackberry, this is a weak point here.

Software

The functionality of the device is described in detail in a separate material, there is no point in repeating it. I will only note that the device is good in terms of the quality of music reproduction, I like it. There is no built-in radio, which is also a sign of RIM. Unconverted video plays on the phone in most cases, which is also nice. But the small screen size does its job, watching videos is not too pleasant.

All functions are discussed in detail in the review of Blackberry OS 5.x.

Impressions

In terms of the volume of the call, the device is almost perfect, a separate speaker on the rear panel, you can hear it well from outerwear, from your pocket, and from anywhere. The vibrating alert is also at a level slightly above average. There are no problems with voice quality, the model is typical for the market.

This model has become my go-to email model and after Bold 9000 it took some time to get used to it. I got used to it relatively quickly, although I continued to miss the wide keyboard. But after trying to switch to Nokia E71/E72 for a day, I realized that Bold 9700 won my sympathy. After it, using other QWERTY phones is very difficult. Perhaps, but it is akin to painfully finding inconvenience in small things that begin to annoy. I emphasize again that if you have used Blackberry constantly, you will understand my words, if not, then you have many pleasant discoveries ahead of you.

Working time and speed have increased. And this is a plus for the device. Compared to the Bold 9000, it's more interesting. As well as in other parameters, for example, the camera. But here there is such a problem, I would not change the Bold 9000 for a second Bold. Still, it's the keyboard. But I recommend replacing Curve if such a need arose, the second Bold looks more interesting.

For those who choose the first Blackberry, this model is optimal, it is typical for the company, it has incorporated the best. It is convenient in daily use and works indecently for a long time, compared to modern smartphones focused on mail and other things. But a Blackberry phone is, first of all, an ideal work with contacts, SMS, mail. All other functions, for example, multimedia, are already in the second place. This is not a weak point of the device, for example, in terms of the quality of music playback, it will outdo many. But for video, it is not very good, and again the question of the screen arises. Why is that? Because this is a business tool and it is focused on the functions listed above, and it is almost impossible to achieve everything at once in one model. This should always be understood when choosing any phone. An ideal for some features and a weakness for others. For example, here GPS is not very interesting and this is a frankly weak point of the device. It is not good with respect to maps, positioning works with a bang, so it's impossible to get lost.

Total, it turns out a great tool for mail. Convenient phone for calls. But not a universal solution, especially for multimedia functions. And here you need to decide what exactly you need in the first place from the phone. The cost of the official device is indecent 25,000 rubles, while gray phones sell an average of 17-18 thousand rubles. Which already looks more interesting. Considering that you can connect your device to any operator, buying an official phone does not look very justified. Such a price does not seem justified.

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Test of the new Skoda Fabia: smartphone mania.

Test of the new Skoda Fabia: smartphone mania.

If cars could speak, on the sidelines of the Paris Motor Show one could hear the following dialogue between Skoda’s four-wheeled envious women:

– Have you heard the news? Baby Fabia got along with the Chinese.

– Not with a Chinese – with a Taiwanese!

– Oh, with the Taiwanese? Isn’t it all the same.

THE BEGINNING OF A NOVEL.

No, I do not mean at all that the electronic interpenetration of a smartphone and a car will lead to the fact that we will ride on fashionable gadgets, and cars will remain in museums. But the car is gradually ceasing to be just a means of transportation – even such a small and relatively affordable one as “Fabia”. See what she has to offer now.

The MirrorLink function allows you to control applications installed on compatible smartphones from the car screen (so far it is HTC and the Android platform, but a version for iOS devices is promised by the spring of next year). And – oops! – it becomes possible to use the mobile Internet with all the consequences. The on-board system screen will display the smartphone applications needed to listen to music, use the navigation system, view the contact list, and so on. For safety reasons, some functions, such as video playback, are only available when the vehicle is stationary. Search for contacts and listen to music can be used on the move. So 5 Bedroom House for rent-manual.pdf with the help of the MirrorLink system, the car uses the capabilities of the smartphone.

And the SmartGate function allows you to transfer some vehicle data to your smartphone via Wi-Fi. For example, the dedicated Skoda Drive App reports how efficient the driving style was on each trip, as well as informs about fuel consumption, average speed and much more. Users can view their routes on a map and post them on social media. With the help of applications, you can find out: acceleration, speed, deceleration rate, pressure on the brake or accelerator pedal, braking time, etc.

As I understand it, this is just the beginning of a romance between a car and a multifunctional mobile phone. Captivating!

BARIATRIA AND SECURITY.

At the same time, “losing weight” did not affect passive safety at all, and in terms of active safety “Fabia” reached a new qualitative level in the class of compact city cars. The most interesting is the system for controlling the distance to the car in https://cdn-146.anonfiles.com/Pag4Fbpbv3/11036d33-1639040226/Used%20Hummer%20Cars-manual.pdf front with the function of emergency braking in the city – Front Assistant. As the distance decreases, the system activates one of four levels of collision avoidance. On the first, a warning flashes on the dashboard. On the second, a buzzer is added, and on the third, the system initiates short braking pulses. If the driver does not react to the threat, emergency braking is triggered – this is the fourth level. A full stop is possible only at city speeds – from 5 to 30 km / h.

The emergency braking system (as part of the ESC stabilization system) is included in the basic equipment. The idea is to prevent multiple collisions that may occur after an accident by “pressing” the brake, if not done by the driver.

The electronics of the new “Fabia” is already ready to assess the degree of driver fatigue at speeds over 65 km / h. So far, her intervention is limited to the supply of sound and light signals.

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сельское хозяйство.

сельское хозяйство.

Сельское хозяйство – это выращивание растений, животных и некоторых других организмов, таких как грибы, для производства продуктов питания, волокна, топлива и лекарств, используемых обществом.

Рекомендуемые.

Новости & Просмотры | 22 ноября 2021 г.

Удобрение мелких сельскохозяйственных культур.

Томас Несме.

Новости & Просмотры | 10 ноября 2021 г.

Отслеживание происхождения трансевразийских языков.

Питер Беллвуд.

Последние исследования и обзоры.

Исследования 25 ноября 2021 г. | Открытый доступ.

Сборка хромосомного генома пчел с высоким содержанием маточного молочка.

Ляньфэй Цао, Сяомэн Чжао & Ченг Сун.

Исследования 22 ноября 2021 г. | Открытый доступ.

Фосфор в целях устойчивого развития: удвоение производительности мелких землевладельцев.

Фосфор ограничен во многих тропических почвах. Это исследование показывает https://www.unian.ua/tag/oleg-bahmatyuk, что, несмотря на такое ограничение, страны Африки к югу от Сахары почти удвоят продуктивность мелких фермерских хозяйств, в то время как в некоторых регионах потребуется почти на 40% больше фосфора, внесенного в период с 2015 по 2030 год.

C. Лангханс, А. ЧАС. W. Beusen & А. F. Бауман.

Исследования | 22 ноября 2021 г.

Политика передачи рисков и неподвижность мелких фермеров, вызванная изменением климата.

Изменение климата существенно повлияет на мелких фермеров, и им потребуется адаптироваться. Агентное моделирование показывает, что вмешательства, особенно денежные переводы в сочетании с механизмами передачи рисков, приводят к увеличению миграции и освоению товарных культур, с более высоким доходом и меньшим неравенством.

Николя Шокетт-Леви, Маттиас Вильдемеерш & Саймон А. Левин.

Исследования | 11 ноября 2021 г.

Климатический предел для сельского хозяйства в Бразилии.

Урожайность сои и кукурузы в регионе Амазонка-Серрадо в Бразилии зависит от дождевой воды. Потепление и осушение сделают климат менее подходящим для сельскохозяйственного производства; изменения уже переместили 28% пахотных земель из оптимального для них климатического пространства.

Людмила Раттис, Пауло М. Брандо & Майкл Т. Коу.

Исследования | 8 ноября 2021 г.

Долгосрочное влияние традиционных и оптимальных методов сохранения вклада на генетическое разнообразие и генетические преимущества местных пород свиней.

Цинбо Чжао, Хуэйминь Лю & Гошэн Су.

Исследования 03 ноября 2021 г. | Открытый доступ.

Глобальное распространение, тенденции и факторы возникновения внезапной засухи.

Мгновенные засухи могут иметь разрушительные последствия, но, как известно, их трудно предсказать. Это исследование определяет глобальные очаги внезапной засухи, обусловленные спросом на испарения и дефицитом осадков в различных географических регионах и типах сельскохозяйственных культур, обеспечивая основу для прогнозирования внезапной засухи.

Иордания I. Кристиан, Джеффри Б. Basara & Робб М. Randall.

Новости и комментарии.

Основные результаты исследований | 01 декабря 2021.

Больше, чем кожа глубоко.

Алисса Финдли.

Комментарии & Мнение | 01 декабря 2021.

Социально-экономические причины дальних трансграничных перевозок животных в ЕС.

Транспортировка живых животных через страны-члены Европейского союза (ЕС) указывает на социально-экономические преимущества перемещения животных вместо мяса, несмотря на благополучие животных. При пересмотре законодательства ЕС о благополучии животных, выращиваемых на фермах, следует учитывать социально-экономические причины дальних трансграничных перевозок живых животных.

Коэн ван Вагенберг & Вилли Балтуссен.

Комментарии & Мнение | 29 ноября 2021 г.

«Для коричневого беспозвоночного»: спасение местных устриц из Великобритании.

Том Кэмерон работает с местными производителями устриц над восстановлением местных устриц в их естественной среде обитания в Соединенном Королевстве.

Вирджиния Гевин.

Новости & Просмотры | 22 ноября 2021 г.

Удобрение мелких сельскохозяйственных культур.

Удвоение продуктивности производства продуктов питания в мелких фермерских хозяйствах – основная цель достижения глобальной продовольственной безопасности, по мнению Организации Объединенных Наций – может повлечь за собой дополнительные потребности в питательных веществах. Новое исследование сообщает, что некоторым регионам потребуется почти на 40% больше фосфора в период с 2015 по 2030 год для достижения этой цели.

Томас Несме.

Основные результаты исследований | 17 ноября 2021 г.

Односторонние соглашения и утечка выбросов.

Анниса Чанд.

Основные результаты исследований | 17 ноября 2021 г.

Даже органические пестициды стимулируют изменения в дикой природе по соседству.

Один из ключевых водных видов развивает устойчивость к соединениям, используемым для обработки органических полей возле его прудов.