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SpaceX upcoming projects

By launching 31 rockets into orbit and placing thousands of satellites there last year, SpaceX beat its own launch record. The Hawthorne-based business also made great strides on fresh projects including its Starlink worldwide broadband service and its enormous Starship spaceship, which it plans to put into orbit for the very first time.


 The upcoming 12 months seem to be the busiest SpaceX has ever experienced. Here is a glance at the current status of some of the company's most important initiatives.

Starship Program:

NASA's Artemis mission, which aims to send people back to the moon in the coming decade, will employ Starship, a large launch vehicle created for interplanetary space travel, as a lunar lander in 2021.

The rocket was successfully launched 10 kilometres into the air and returned to SpaceX's testing facility in Boca Chica, Texas, last year after a number of unsuccessful attempts.

The Starship's maiden orbital flight test, which SpaceX hopes to carry out this year, could help to assess how prepared it is for upcoming space missions.

Future expansion plans for SpaceX include the Starship in large measure. The vehicle might be used to launch a significant number of satellites and transport a significant amount of goods into space, in addition to making it possible for people to travel to the Mars and the moon.

It took SpaceX many months to land Starship prototypes safely, and  Elon Musk, the chief executive of SpaceX, allegedly issued a warning to staff members that delays in the manufacture of the rocket's engines had put the business on the point of bankruptcy.

The project is still moving forward, and in January SpaceX unveiled a model of the launch tower for the spaceship that, according to Musk, would eventually be used to "capture" rockets that are returning to Earth.

Missions with Crew

2020 saw the launch of SpaceX's first crewed mission, and since then, four flights carrying both astronauts and civilian personnel into space have been successfully flown.

SpaceX will start a venture with space tourism firm Axiom Space Inc. in the coming year that will transport three humans to the International Station. The journey, whose launch is planned for March, is anticipated to be the first entirely private expedition to the space-station.

Starlink Enlargement:

In-house-built satellites that will form the backbone of a worldwide broadband network that SpaceX started testing in 2020 have been launched by the corporation in numbers totaling about 2,000 since 2019. The service is accessible in portions of North America, Europe, and Australia, and as further satellites are launched, coverage is anticipated to increase.

In support of the Starlink program, which has been marketed as high-speed internet, accessible to customers in rural regions in particular, the business eventually expects to launch over 10,000 satellites.

Nearly 150,000 people presently use the service, but it has been difficult for the firm to meet the demand for its infrastructure in part because of supply issues, which delayed the construction of the terminals required for customers to get a transmission from the company's satellites.

Capturing Carbon

Musk tweeted in December that SpaceX has begun a programme to "take (carbon dioxide) out of the atmosphere and transform it into rocket fuel."

Although the statement is far from a detailed plan, it was made less than a year after the XPrize Foundation competition was announced, which would have given students, researchers, and entrepreneurs the chance to compete for $100 million donated by Elon Musk's charitable foundation in the hopes of developing carbon removal systems that might help to lessen the impacts of climate change.

Although Musk emphasised that the technology "will also be vital" for the company's planned flights to Mars, it is unclear when such a carbon capture device would be developed.


LEDs lights

Today we will discuss and understand some of the words used in an LED lighting systems, which will help you choose the best solutions for your applications or upcoming projects and understand why LEDs continue to outperform incandescent and fluorescent models. Early on, LED lighting was mostly utilised in business settings, but because to technological advancements, it is now mostly employed in home settings as well. growing numbers of consumers



LED (Light Emitting Diode) is a semiconductor source of light which produces light when a DC electric current is run through it. The energy particles, photons, are released during this process. What you need to know, without getting too scientific, is that compared to fluorescent and incandescent models, LEDs are more effective at energy conversion into light. LEDs are more durable and produce less heat than conventional picture lights while using less energy.




Nowadays, You can have a small design with a thickness of few centimetres thanks to the built-in technology of LED. LEDs are being incorporated into a growing number of lighting fixtures today. Built-in LEDs have the benefit of enabling lighting producers to produce thinner and more streamlined fixtures. These cutting-edge LED models can be fitted in locations where no other embedded technology can due to their thickness. For instance, many LED users enjoy installing them in different arts.


Now that you are aware of the many LED lighting options, will discuss some types of LEDs.


Conventional light bulbs


Most homes have these kinds of LED lights. They are perfect for lighting up various places throughout the house, such as hallways and bathrooms etc.


Candelabra lights:


These LED bulbs have a reflector to increase their degree of brightness. For instance, they function best in your home as recessed lights. Additionally, they provide you with significant savings due to their low energy usage and availability in a variety of colours to match your design.




LED floodlights


These kinds of lighting are used in outdoor locations like sports stadiums or security lights. Floodlight bulbs generate a focused beam of light to a specific region or area in contrast to standard lights.



LED candlelight


Candlelight bulbs are more ornamental lighting for the home, as the name implies. They make excellent chandelier lights or restaurant tabletops because of their steady light. In addition, compared to conventional candles, they provide a cleaner and greener option.



Globe lights


These LED bulbs provide light in a variety of directions. Therefore, these bulbs are perfect for locations that demand the most illumination. For your home's lighting, you may, install globe lights.




Light  Tubes:


These are intended to replace standard fluorescent bulbs. They are a typical element in plenty of workplaces and classrooms. Numerous small LEDs are lined up along the tube length to produce the optimised light.


Life Of LEDs:

So how long does the LEDs last? The normal lifespan of an LED bulb is about 30,000 and 50,000 hours. A common incandescent light has a lifespan of roughly  some 1,000 hours. Unlike conventional light sources, LED ages very slowly over time rather than burning out. The LED technology no doubt a miracle, because of its long bulb life and low power consumption.


The ability to customise your own unique lighting scheme using various colour temperatures, intensity, warmness, and efficiency is one of the best things about LED technology.




Color Temperature Correlation (CCT)


The majority of LED lighting fixtures give users a choice of white colour temperatures. Scaling from 1,000 to 10,000, this temp, or CCT, is expressed in degrees Kelvin (K). The colour representation of these LEDs is the same as natural sunshine as Kelvin increases. While neutral whites usually have a temperature of 4000K, warmer whites often have a temp of 3000K or below. The White light that has a temp 5000K or above is described as cold. The typical temperature of LEDs for home and office lighting fixtures is in the range of 2500K to 5000K. Selecting LEDs for your projects, it is of great importance that you should take colour temp in mind.


Voltage and Wattage:

Before buying LED lights you must know the power consumption (Watt) and Voltage on which they work. Most the Led work on 12 V or 48 V. There are smaller LEDs which also work on 3 to 5 Volts. So, Before selecting your LED light you should Properly check the voltage and wattage.

These were some important points which we discussed. If you know better options please tells us in the Comments section. Thanks


Best smart phones 2022

 iOS 13 Pro, the iPhone

The apple 13 Pro and 13 Pro Max are the two greatest smartphones you should consider if you're an Apple lover. We've merged these two phones into one entry because their only distinction is screen size. These iPhones may not quite measure up to the best Android smartphones, but for iOS fans, they are the best devices with the iOS operating system.


The iPhone 13 Pro smartphones are the finest and most potent iPhones ever made, which is why they are placed on the top of the list. They have a more powerful A15 Bionic CPU than the iPhone 12 Pro phones, and we found them to be really quick to operate whether we were simply swiping through menus or playing a lot of games.



The iPhone 13 Pro has a 6.1-inch display with 1170 x 2532 resolution, while the iPhone 13 Pro Max has a 6.7-inch display with 1284 x 2778 resolution. Both feature a 120Hz dynamic refresh rate and look terrific, though they aren't nearly as crisp as some phones.


Battery life:

We discovered that both phones could go one day without a charge, which is about the maximum you can hope for from a strong flagship device. Battery life is comparable across the Pro and Pro Max despite the Pro's smaller 6.1-inch screen and the Pro Max's larger 6.7-inch screen due to the Max's larger battery.



Each of these Pro phones has a primary, ultrawide, and telephoto (or zoom) camera on its back. Here, you may enjoy the standard iPhone camera functionality, including its excellent night mode, video modes, and selfie techniques.



Samsung Galaxy S22 Ultra:

The Samsung Galaxy S22 Ultra is as stylish as it is powerful. Its screen is gorgeous, it has a a powerful of processor, and the list goes on. You might wish to continue reading this list for one or two reasons: Depending on what you're looking for, the Galaxy may receive a red "X" for its sluggish charging, size, and expense. However, for the majority of users, the device is the greatest smartphone to take into consideration due to its overall strength.

Reasons why it's the 2nd best phone overall: The Galaxy S22 Ultra is our top pick because it excels in all areas, unlike many phones that just offer one good feature. You'll love the gadget whether you're a serious gamer or a photographer. For those who like to take notes and draw, the phone also has a S Pen pen. Additionally, the Samsung Galaxy S22 Ultra performed exceptionally well in our benchmark tests, ranking among the top few devices in our rankings, making it ideal for intense tasks like video editing or gaming.



The 6.8-inch screen on the S22 Ultra has a resolution of 1440 x 3088 (for 500 pixels per inch), a refresh rate of 120 Hz, and a very high peak brightness of 1,750 nits, making visible even in strong sunlight outside. This display has a variable refresh rate, allowing it to dip to 1Hz to save battery life when a high refresh rate isn't required.


Battery life:

The battery lasts for around a day, which is remarkable given how other high-end phones have poor battery lifetimes, provided you're using it normally and not for non-stop video recording or something equally taxing.



adaptability makes it a valuable tool. If you wish to go near to your subject, you may use the 10x optical and 100x digital zoom limitations to create stunning ultrawide photos. There are also a tonne of helpful settings, such as Portrait mode, which captures individuals in beautiful light, and Single Take, which employs AI to select the finest image from a group of images.




Realme GT 2:

Consider the Realme GT 2 if your budget can't support any of the other, more expensive smartphones on this list. It costs half as much as most of the other gadgets on our list, and in some cases even less, yet it has remarkable features. Due to its low price, this phone has certain flaws. For example, the software is fairly flaky, and there is no telephoto lens for zoom photos. But for what you're paying, this is a great deal.


Why it's ranked third: From a strictly technical standpoint, there are many better smartphones than the Realme GT 2, however when you take price and value into account, this achieves an excellent balance, providing respectable features at an incredibly cheap price.



The Realme GT 2 sports has an amazing 6.6-inch FHD OLED screen having a 120Hz refresh rate. In our evaluation, we discovered that while it occasionally presented photographs inaccurately, it usually exhibited decent colour and offered a number of display options to select from.


Battery life:

The battery is a sizable 5,000mAh and charges really quickly. It will really outperform Apple or Samsung handsets elsewhere on the list. In our tests, we discovered that it took less than 45 minutes to charge from empty to full.



The phone includes a 50MP primary camera that excels at capturing photographs in low light and with vibrant colours. In fact, the Sony sensor in use here outperforms a number of the other 50MP cameras in the phones mentioned above for capturing nighttime photos, and we enjoyed using it to take images in the dark.





OnePlus 10 Pro:

The OnePlus 10 Pro is a fantastic Android option if you don't want a Galaxy smartphone, which is why it is placed fourth. It features an excellent screen, a Snapdragon 8 Gen 1 CPU, and quick charging. However, the cameras fall short of those on the finest smartphones.



This device sports a gorgeous 6.7-inch AMOLED screen with a refresh rate of 120 Hz, which may go as low as 1 Hz when a quick refresh is not required. It is large, brilliant, and lovely, and it also supports HDR10+.


Battery life:

The OnePlus 10 Pro boasts a sizable 5,000mAh battery with a middle-of-the-road life in our opinion. The charging speed is also quite quick at 80W (unless you reside in the US, when it is 65W).



There are three back cameras, each of which is rather versatile. A few camera modes were also developed in conjunction with Hasselblad, including XPan, which will appeal to fans of the original XPan camera. The OnePlus 10 Pro did somewhat lower than the Galaxy and iPhones above in our camera test. It is still a capable camera, but not excellent enough to merit a higher ranking than it now has.



Google Pixel 6 and Pixel 6 Pro:

The Google Pixel 6 and Pixel 6 Pro are, perhaps, the most intriguing smartphones the company has ever released. With a huge camera visor and a three-tone colour scheme, they both have unique designs that set them apart from other phones. On the inside, they are just as intriguing thanks to a Google Tensor processor that was created especially for these phones.


We will place Pixel 6 Pro in  fifth position. The regular Pixel 6 has a few less bells and whistles, it is similarly temptingly priced, and both devices run Android 12 with Google's intended software changes. They, therefore, serve as a fantastic example of Android, but we are unable to place them in the top three due to their average battery life when compared to mobiles ranked higher. The phones are also somewhat less powerful than their competitors due to Google's own excellent but not outstanding processor, but this weakness will only be felt by a small number of power-hungry consumers, so we won't be too harsh.



The ordinary Pixel 6 is a step down at 6.4 inches, FHD screen with a 90Hz refresh rate, but it still produces brilliant graphics. The Pixel 6 Pro features a gorgeous 6.7-inch QHD+ resolution with a 120Hz refresh rate.


Battery life:

The battery life of these phones is just better enough. Choosing any, the 4,614mAh Pixel 6 or the 5,003mAh Pixel 6 Pro, the battery life on both phones is just average. Both have a modest 30W charging pace as their maximum output.



Both of these phones have excellent cameras, with a 50MP primary camera and a 12MP ultra-wide camera. in the case of the Pixel 6 Pro, a 48MP telephoto camera having 4x zoom is also available.

Business with IoT (Internet of Things)

 The Internet of Things (IoT) is enhancing human lives and simplifying operations for businesses and other organisations across a variety of industries. The Internet of Things (IoT) technology is improving everyday home items and sophisticated industrial equipment. IoT refers to a network of real-world items that are equipped with sensors, applications, and other data-exchange technologies.

There are more than 10 billion linked Internet of Things devices, according to industrial sources. By 2025, this number is anticipated to increase even further and reach 22 billion. This technology is starting to play a bigger role in our intricate Internet architecture.


The commercial potential for IoT technology is as follows: The development of new best practises, advancements in technology, and greater device manufacture have all contributed to the expansion of IoT technologies. Activities may be transferred from local devices to cloud computing solutions using software like ai technology and real-time analytics. Over the past 15 years, computing power has grown dramatically. The increasing popularity of smartphones, laptops, and tablets is evidence of the IoT market's rapid expansion.


Technology 5G With the introduction of the 5G network, connectivity has increased and new technological experiences, such virtual and augmented reality, are now possible. The use of IoT technologies to support agile operations and versatile productions has also been pushed by 5G connection. The usage of autonomous carts, automated assembly, networked logistics, packing and product management, and other areas are predicted to be made easier by this technological progress.


Energy Sector The energy sector as a whole has benefited from the IoT utilities, particularly in nations like Canada and the United States. By gathering vast amounts of data, a number of firms that specialise in smart metre deployments assist organisations in managing their grids. For the purpose of keeping an eye on diverse activities like smart home metres, power plants, and distribution networks, the Canadian energy industry is securing internet-connected sensors.


One company recently unveiled a cutting-edge family of power control gadgets. In a linked home, the technology enables centralised power control and management, tight equipment protection, and customised power control of the video, audio, lighting, security, and communication systems.


Using IoT Stack The IoT technology platform offers substantial market expansion potential. Smart devices make up the foundation layer, which is controlled by specialised suppliers and major manufacturers. Mobile network providers, motivated by global standards, cover the second layer of connection.


Platforms that use cloud computing take up the third tier. Both platforms make it easier to create cutting-edge apps and integrate smart devices. Applications for businesses are in the top tier. This layer is more likely to offer the greatest IoT business potential.


IoT technology has been viewed by businesses and service providers as the primary enabler to accelerate digital transformation and improve operational efficiencies. The market is expanding as a result of the growing usage of IoT technology across sectors including manufacturing, healthcare, and the automotive industry. The industrial revolution of intelligent connection is being fueled by IoT technologies.


IoT technologies have a tremendous deal of potential to enhance value addition in the future. In the upcoming years, sensor embedded technology that uses IoT devices to continuously monitor important parameters will increase and become extensively used. The benefits of this most recent IoT technology wave are more likely to be realised by businesses, making the IoT market both domestically and internationally more competitive.


Gadgeon is a full-service IT outsourcing provider with a strong reputation for its engineering and industrial IoT software design capabilities. We link devices, activities, and processes in order to generate economic value and transform businesses via the use of data. We effectively facilitated our clients' digital journeys as a reputable IoT software development business by providing essential digital services spanning from integrated devices to testing and test automation.


Artificial rain

Northern hemisphere countries continue to experience heat waves, wildfires, and catastrophic drought, spurring climate scientists and technologists to experiment with the weather. Now, most interesting question comes to someone's mind is, can humans control weather? The answer is Yes, to some extent, humans can control the weather.

Cloud seeding, often known as artificial rain, is commonly employed nowadays to supply water to drought-stricken areas. However, it has been abused in the past.


China is currently experiencing its longest heat wave on record, with temperatures in the Sichuan province consistently reaching 40 degrees Celsius. The heat is driving the Yangtze, Asia's longest river, to reach the record lowest level, triggering a drought that, according to China's Ministry of Water Resources, is adversely affecting the drinking water of rural people in the country, its livestock, as well as agricultural growth.

In response to the dire situation, the Chinese government undertook an effort to induce rainfall through a process known as "cloud seeding."


What is the process of cloud seeding?


Clouds arise as water vapor-containing air rises into the atmosphere. It cools, and condenses into ice particles. A cloud arises when enough of the particles clump together. The frozen particles mix inside the cloud. When the combined droplets become large and heavy enough, they fall to the ground as rain, snow, or hail, depending on the temperature and other weather conditions.


Cloud seeding involves the addition of microscopic particles of silver iodide, a salt with a crystalline structure similar to that of ice, to clouds. This operation can be carried out using a plane or a drone, or the particles can be blasted up from the ground.


According to scientists, the technology allows water vapour inside clouds to be "tricked" into producing droplets surrounding the silver iodide particles. When these droplets get some weight, a process with the addition of silver iodide, they fall down from the clouds in form of precipitation.



Practical examples of cloud seeding:

In the 1940s, scientists at the General Electric Research Laboratory in the United States undertook the first experiments at cloud seeding. The approach is now employed in many countries throughout the world. China is the most recent example, and the method was previously used to make it rain before of the 2008 Summer Olympics.


Russia also used cloud seeding before of major holidays to prevent rain from ruining public celebrations. In order to assure a dry May Day celebration, Russia reportedly spent 86 million rubles (1.44 million euros or 1.43 million USD) in 2016. The weather in Moscow was sunny on the day of the event.


Today, the method is largely utilised to make it rain in drought-stricken areas. Aside from China, the United Regions has been practising cloud seeding, most notably in drought-stricken western states like as Idaho and Wyoming.


In the Vietnam War, the US used cloud seeding as a weapon to extend the monsoon season, interrupting the Viet Cong's supply chain and impeding their movement by making the land muddy with more rain.


In April 1986, Soviet air force aircraft seeded clouds travelling toward Russian communities near Chornobyl, where a nuclear power facility had just detonated. Moscow deemed the operation a success because the radioactive clouds did not reach Russian cities. Instead, they showered radioactive waste on rural Belarusian districts and the hundreds of thousands of people who lived there.


Why is cloud seeding contentious?

These latter two examples demonstrate how technology intended for the greater good may always be abused by those in positions of authority. Other variables, though, have some experts questioning whether cloud seeding is a wise idea.


One argument is that if you seed clouds over your region to prevent dryness, those clouds will not convey rain to the next region, where it would have delivered much-needed rain.


"If you make it rain in one spot, you minimise rain downstream," said David Keith, a Harvard University professor of applied physics.


Keith compared the process to "robbing Peter to pay Paul," referring to his studies on the nexus of climate science, technology, and policy.


"It simultaneously produces winner and loser," he explained.


Experts also warn that regulating the weather may be too difficult to accomplish and that it may divert attention away from traditional ways to combat climate change.


"Geoengineering, especially large-scale cloud seeding, is a risky experiment that can go away and have unanticipated repercussions," Vinas added.


"We should invest in adaptation and mitigation strategies if we wish to lessen the impacts of droughts or storms, which are especially severe in the context of present global warming."


The Sporty Electric Bike Lora

Lora electric motorcycle concept by Urbet, a Spanish electric motorcycle company. Production-ready Lora will be available by the end of 2022. Both Lora and Lora S models are L3e approved, which means they may be driven in Europe by A1 licence holders.


Electric motorcycles are now commonly available. International automakers have been competing to develop their own versions of the perfect all-electric two-wheeler. The bulk of electric two-wheelers designed for daily commuters is, predictably, scooters. It just makes sense because they are extremely comfortable platforms that are also extremely easy to ride. 

Having said that, it's quite encouraging to see electric two-wheelers being developed to provide a more enjoyable riding experience. This is the case with the Lora electric motorcycle concept by Urbet, a Spanish electric motorcycle company. The Lora, first shown as a concept sketch in May 2022, is everything you'd expect from a street-oriented electric naked bike. The Marbella, Spain-based company has previously supplied low-cost electric scooters built by Chinese manufacturers, such as the Nura and Ego. The Lora, which is clearly a from-the-ground-up design, seeks to distinguish itself from these low-cost competitors.

If we only had concept sketches of the Lora in May, Urbet has improved its design and actually produced the bike in metal. The production-ready Lora certainly looks appealing, and new facts about the bike's performance and trim options have now emerged. 


In terms of performance, the standard model Lora houses a battery and an electric motor inside the frame, much like a typical motorcycle's engine. It has a steady power output of 5 kW, or roughly 6.7 horsepower, and a peak power output of 11 kw, or 15 horsepower.

Range on a single charge:

With improvements to the electric motor, the Lora S moves up the ladder and packs even more punch. The top-of-the-line model is predicted to produce 19 kilowatts, or 25 horsepower. In terms of range, the regular Lora is said to be capable of travelling 120 kilometres on a single charge. Meanwhile, the S is said to have a range of 240 kilometres in Sport mode and an even more amazing 360 kilometres in Eco mode.

In terms of pricing and availability, the Urbet Lora and Lora S models are both L3e approved, which means they may be driven in Europe by A1 licence holders. The speedy electric naked bike is anticipated to be delivered before the end of 2022, with pricing starting at 8,250 Euros (about $8,498 USD) for the standard model and 11,750 Euros (roughly $12,103 USD) for the Lora S.


Working from Home in Pandemic.

COVID-19 has accelerated the tendency toward working from home. After the pandemic, many people who had never worked from home before found themselves rushing for consistent internet access to work, managing distant learning, and engaging themselves in virtual social activities.


The Reliable internet also played a role in enabling people to manage their health through virtual medical appointments and to purchase food and other products online. Even when the pandemic subsides and more workers return to in-person settings, companies and employees acknowledge that the office model has shifted, and demand for internet connectivity will most certainly remain strong. However, access to dependable, affordable internet remains a difficulty in many sections of the country, particularly in rural areas. 

Many companies such as Viasat have stepped up to improve the connection of unserved and underserved areas, and their networks have been optimised based on consumer needs and overall increased demand. 

Satellite internet service bridges the "digital divide" by providing service in remote places where terrestrial providers are unable to serve. CNET, a leading worldwide consumer-technology media brand, recently rated Viasat the "best satellite provider" of 2021 for rural internet access in the United States due to its high speed, large data volume, and cheap Wi-Fi device rental fees. 

Many people who lived in remote places prior to the epidemic, as well as those who relocated from urban to rural areas in search of more space during the pandemic, discovered they could perform their professions efficiently without commuting if they had access to reliable and high-quality internet. 

According to a recent survey done by Viasat, customers in these rural areas ranked email as the most critical internet service they required to work from home, followed by the ability to make video calls, and satellite internet enables these activities. Furthermore, many elderly people in outlying places have learned that consistent internet access provides safety and connection with family, friends, and medical treatment. 

Furthermore, 66% of respondents in these remote places responded that if given the option, they would work from home in the future. Residents in remote places may now work and stay productive from home thanks to satellite internet connection.

The Future of EVs

The automobile industry continues to promote electric cars as the "next best tech," and the most recent generation of electric vehicles (EVs) are more advanced and sophisticated. Although widespread adoption of EVs took some time to commercialize worldwide, more automobile buyers see the benefits of EVs and hybrids. Several advancements in the most recent models have helped overcome some of the barriers that may have discouraged purchasers from adopting EVs. Consumers seek the following crucial features:


More strength. Customers demand greater range and faster charging. Newer electric vehicles have battery life that allows them to travel hundreds of kilometres on a single charge.

More fashion. Car consumers also demand comfort and style, and manufacturers are responding with capacious designs that are comparable to those of traditional vehicles.

"Consumers are ready to transition to electric automobiles," says 

Autotrader Executive Editor Brian Moody.

"When buying an electric vehicle, people consider lower environmental guilt, zero fuel charges, and never having to change your oil again," he explains.

The EV6, Kia's first entrance into the battery-powered car industry, is an example of cutting-edge EV technology.

The EV6 has an ultra-fast 350-kilowatt charger that can charge the car from 10% to 80% in less than 18 minutes, which allows the car to go up to 320+ kilometres.

According to the company website, it also has a unique Vehicle-to-Load (V2L) capability that allows the battery to be used as a mobile power source for numerous applications. Other improvements include rear-wheel drive as well as dual-motor all-wheel drive. It has two battery capacities variants, 58.0 kWh and 77.4 kWh. With 576 HP power, the latest battery technology matches consumers' thirst for speed, making it possible to go from 0 to 60 miles per hour in less than 3.5 seconds. 

It is also as stylish as powerful. It has four doors, a sedan body and provides seating for five passengers, the EV6 is inspired by existing crossover vehicles. The EV6 have all the feature a customer requires. 

Besides Kia, most well-known companies like Audi, Toyota and Porsche are investing billion of dollars in EVs. The future no doubt belongs to EVs, and many countries told that they will only use EVs in the next 15 to 20 years.


health with technology

 It's no surprise that technological improvements have a huge impact on our lives. The very development of technology in todays world is the advancement in the healthcare industry.

The essential technologies are laying the groundwork for numerous thriving healthcare innovations that are changing the health industry. To move parallel with evolution, healthcare industries must adopt new technology that will improve the facilities of health, reduce the costs, and provide valued services to patients.




"We believe consumer health innovations - apps, self-diagnosis tools and wearables, - have the potential to enhance the patient-physician interaction and improve overall health outcomes."

- Dr. Glen Stream.


innovative technologies, paired with a number of new motivations such as technology-centric transformation, not only save costs but also ensure a value-based treatment in the healthcare industry.

AI artificial intelligence, machine learning, and automation have the potential to improve the healthcare centre to the next level.

A study at the University of Michigan shows that digitizing information from conventional paper to electronic health records will reduce the cost of patient care by 3%. They also calculated that each patient would save $5.14 every month.


Furthermore, the healthcare sector is adopting revolutionary changes as it seeks innovative ways to deliver the best patient outcomes while reducing overall healthcare costs. What will be the future of the healthcare industry? Let's discuss some promising technologies that are poised to transform the healthcare landscape.


1. Artificial Intelligence:


Artificial intelligence is playing a crucial role in transforming healthcare. The use of artificial intelligence in the health sector is resolving a number of difficulties that patients, hospitals, and healthcare personnel confront.


The use of AI will supply much of the foundation by enabling predictive and precise analytics and clinical decision support systems that will alert providers to concerns far before they would otherwise notice the need to respond.


Nowadays, every patient is digitally looked after, which is more responsive and which costs less. Artificial intelligence has a wide range of positive impacts on the healthcare industry, including disease diagnostics, clinical decisions, management, patient monitoring, and wellness management.


In today's world, AI is taking over healthcare treatments such as creating better diagnostics, and treatment plans, analyzing data to provide customized and best medication, and monitoring.


AI can also to track chronic diseases with accuracy and precision using MRI, ultrasound, CT scans, and x-rays, reducing the cost and time. So, the patients do not have to wait for a diagnosis.


According to report by CB Insights, approximately 86% of healthcare provider sectors, science companies, and technology vendors are practising artificial intelligence technology in healthcare. By near future, these organizations will have spent an average of $70+ million on artificial intelligence projects.


Let's take a look at some of the ways AI is redefining the healthcare industry:

Using digital automation & artificial intelligence will help in the compilation and analysis of information like (medical records, patient information, and treatment history and previous prescriptions with no time). AI collect, store, re-organize, and trace data in order to provide quick delivery of healthcare services.

Robots can perform X-rays, CT scans, data entry, and other tedious tasks more quickly and precisely. 

Artificial intelligence systems have been developed to analyses data, evaluate reports from a patient's file, and thus assist clinicians in selecting an appropriate treatment plan. The power of AI allows for the early detection of potentially fatal diseases.

AI assists in monitoring a patient's fitness level and sending health updates to the appropriate provider in order to improve or change the patient's treatment plans.


2. Blockchain:

Blockchain can be defined as a distributed system that records peer-to-peer transactions, tracks or records changes across networks, and save and exchanges encrypted data for cryptographies. Using blockchain technology will develop the health sector. It will improve the healthcare ecosystem and improve the security, privacy, and interoperability of health data. This technology will provide a new model for health information exchanges (HIE) by making electronic medical records more effective and secure.


According to a recent study, it is predicted that by 2025 most healthcare institutes will adopt blockchain technology in their healthcare system.


"Adoption of blockchain technologies will be driven by organisations that base their development on providing better quality care, much like the regional health information exchange concept sparked digital health data-sharing. Data exchange worked well in some jurisdictions."

- Brian Behlendorf, in an interview with HITInfrastructure


What impact will Blockchain have on healthcare?

Patient privacy and confidentiality are the most pressing issues in healthcare. Those working in healthcare must prioritise and improve security. Despite initiatives, blockchain could be the ideal solution for healthcare.

Collaboration and governance: The amount of available data has grown dramatically in recent years and will continue to grow. Blockchain would improve data governance, increase data ownership, improve interoperability, and result in better data-driven decision making.

Data and analytics: Blockchain technology is defined as a shared, permanent record of peer-to-peer transactions that will provide new insight into how healthcare providers store and exchange data, resulting in greater transparency and trust. Shared data within the virtual database will result in continuous updates, improving real-time analytics.


3.Data Science:


The volume of health data is increasing and is expected to grow dramatically in the coming years. With over 1.2 billion clinical documents produced in the United States each year, doctors and life scientists have an ocean of big data for their core research. Furthermore, the use of wearable technology generates and shares a massive amount of health-related data. The flood of such data creates new opportunities for more informed healthcare.


Data science is an effective healthcare trend for optimising the way hospital operations are managed. With the help of this technology, the industry can find well-organized, cost-effective and feasible ways to tackle vast amounts of existing healthcare data, enhancing its potential to revolutionise healthcare with precise and error-free diagnosis.


Gaining in-depth knowledge of the human body is an essential requirement for data scientists and machine learning experts all over the world.


Despite having a massive amount of health data at our disposal, diagnostic failure rates remain high. According to a recent study conducted by the National Academies of Sciences, Engineering, and Medicine, approximately 5% of adult patients in the United States are misdiagnosed each year, totaling 12 million people. Furthermore, postmortem examination results research reveals that diagnostic errors are responsible for nearly 10% of patient deaths.


Data science plays an important role in predicting a patient with a tumour, the risk of re-admission, or misclassified diagnoses in electronic medical records. Data science will transform the future of healthcare by managing and organising massive amounts of data that will prevent healthcare problems and save millions of lives.


How Will Data Science Impact Healthcare?

Disease Management: Using data science to improve diagnostic accuracy and efficiency. Big data also aids in the reduction of medication errors by improving financial and administrative performance and lowering readmissions. Data science in healthcare can improve public health by detecting disease patterns and recording disease outbreaks.

Patient Profile: An EMR contains standard (structured and unstructured) medical data that can be used to identify which patients are at risk and provide appropriate care. Advanced data science can be applied to patient profiles to identify individuals who can benefit from the proactive approach. It also includes a change in lifestyle.


GeForce Now on Browsers Upgrade

We know that to enjoy 1440p Or 2k quality at 120fps functionality, we had to download the specific Mac or Windows software, as the web version was limited to 1080p at 60fps. But Last year, NVidia released its RTX 3080 GeForce Now, which offered streams up to 2k resolution quality with 120frame rates on PCs and Macs. it also supports 4K HDR at 60 frame rates per second, which is not doubt a tremendous upgrade.


NVidia is expanding its GeForce Now game streaming service to accommodate 1440p resolution at 120fps (frames per second) in Chrome and Edge browsers. Members with the GeForce Now RTX 3080 tier will be able to use the latest browser gameplay options today by selecting 1440p resolutions on the GeForce Now online version.

Another upgrade by Nvidia is a significant improvement in latency, and compatibility for the ray tracing option, the RTX 3080 tier remains one of the best game streaming services available today. By bringing these latency, performance, and resolution developments to Edge and Chrome, GeForce Now becomes much more accessible, especially on older devices, like Chromebooks, and even Xbox consoles that can access these services through the internet browsers. 

Lets talk about subscriptions.

The membership of NVidia’s highest RTX 3080 tier is $19.99 per month or $99.99 for a six-month (equivalent to roughly $16.5 per month).  NVidia is also releasing an improved web version along with six new GeForce Now features. These features will be announced very soon by NVidia.


How does electric car works?

When talking about the electric car the first thing that comes to our mind is nothing else but TESLA. Yes, Tesla. Today we will try to explain the working principle of tesla electric cars and will try to understand it in the easiest possible way.

Tesla’s Fundamental Design:

A Tesla, in its most basic form, is a battery pack linked to a computer and electric motors. The vehicle is entirely electric, with no liquid or solid fuel used. Electric drive eliminates combustion, which eliminates pollution—at least from the car itself.

On the outside, the fundamental components of a Tesla are the same as those of any other car. They have standard production wheels, tyres, and other common automotive parts. Under the hood, however, Tesla comes with more storage or say space than ordinary cars.

As an example, consider an all-wheel-drive vehicle, Tesla vehicle is equipped with four large electric motors, one for each wheel, depending on road conditions and driver input, these drive motors can work together or independently.

The motors are coupled to the car's chassis, which has a unibody design. That implies that Tesla does not have a separate frame that supports the driveline; instead, the frame of the car is the car itself, as is the case with most current sedans (and some SUVs).

The batteries, which store the power required to move the car, are located between the motors. These batteries are hidden and only need to be replaced on occasion. The batteries also power the sophisticated systems that regulate everything from driving to the climate control systems inside a car.


Tesla vehicles lack a single huge battery. Instead, hundreds of smaller batteries are joined together to provide electricity. These are lithium batteries because they can store a lot of energy and charge quickly.

So, what kind of little batteries comprise the large Tesla batteries? You might know them if you've worked with electronics before. Tesla's batteries are 18650 lithium-ion cells, which are routinely found in everything from remote-controlled aeroplanes to mobile charging packs.

Why are Tesla Cars Different from Other Electric Cars?

Tesla vehicles are not your usual electric vehicles. Tesla's sophisticated mechanical and electronic systems are significantly more advanced than the conventional plug-in automobile, putting them in a completely other class. Another important feature of Tesla is that all of its models can be ordered online and custom-built.


Explaining Virtual Reality (VR)

Virtual reality technology is critical to the realization of Tele sensation. It creates a virtual world for viewers to explore and walk through, as well as interact with virtual things. The virtual world, like the actual world, provides us with a stereoscopic picture from the front or side, depending on our vantage point. One of the most essential elements of VR is the ability to enter and walk through the virtual world and handle virtual things via hand gestures.


What Exactly Is Virtual Reality?

The use of computer technology to create simulated settings is known as VR virtual reality. Virtual reality immerses the user in a three-dimensional environment. Instead of looking at a screen, users are immersed in and interact with the 3D world.

The simulation of human senses—all five of them—converts a computer into a vehicle for exploring new worlds. The only constraints to a fantastic VR experience are computational power and content availability.


The difference between VR (Virtual Reality) and AR (Augmented Reality):

VR uses sensory stimuli to generate synthetic environments. The behaviours of users influence, at least partially, what happens in the computer-generated world. Digital environments are representations of genuine places that exist apart from current physical reality.

In augmented reality, the real world is viewed directly or through a device such as a camera to create a visual, which is then supplemented by computer-generated inputs such as still images, audio, or video. AR differs from VR in that it augments the real-world experience rather than building a new one from scratch.



Working principle of Virtual Reality (VR) Technology?

Virtual reality's primary goal is to excite vision. Every VR gadget places one or two screens in front of the user's eyes, effectively eliminating any real-world interaction. Two auto-focused lenses are placed between the eyes and the screen. These adjust based on the user's posture and eye movement. HDMI connections or mobile phones are used to render on-screen graphics. A minimum frame rate of 60fps, a reasonable refresh rate, and a 100-degree view of the field are required for a truly immersive experience. Any disparity in these elements may result in lag for the user. To mislead our brain into believing the VR, a response time of 20 milliseconds or fewer is required.

Another source of concern with VR technology is cybersickness or ripping. It is caused by a discrepancy between the refresh rate and the frame rate, and it results in distorted visuals. This can be mitigated by restricting the frame rate to the monitor's refresh rate. Vertical Sync is the technology employed in this case.




Virtual Reality Applications

Virtual reality is now applied in a variety of sectors. We will look at several examples to see how it is assisting in specific industries.

• Automotive

• Healthcare

• Gaming

• Training

• Tourism

• Education

Today many well-known companies like Facebook, Vivo, HTC, Apple and Samsung are investing in VR technology. It is said to be the future trillion-dollar business.



 Starlink internet works by delivering data across space, where it travels considerably quicker than fiber-optic cable and can reach far more people and places.


In today world, most of satellite internet services are provided by single geostationary satellites that orbit the earth at approximately 35,000 kilometres. However, Starlink is a satellite that orbits the planet at approximately 550 kilometres and covers the whole globe.


What exactly is Starlink?

In basic terms, Starlink is Elon Musk's Space X's satellite internet service. The goal of Starlink is to deliver global broadband internet access without the use of fibre or optical wires. Millions of people around the world lack access to high-quality internet, owing to the physical limitations of wires. Starlink intends to address this issue by delivering internet access via satellite.



How does Elon Musk's Starlink function?

Starlink, as previously stated, is a satellite internet provider. This operates similarly to your present DTH connections in that a satellite sends signals to the dish on your roof, and then a device (in the case of DTH, a set-top box) transforms those signals. Similarly, in Starlink, satellites beam internet to a dish on your roof called a dishy (included in the Starlink kit), which then transmits the signal to the Starlink Wi-Fi router. The Wi-Fi router then translates the incoming signal and connects to the internet.


However, a strong signal between the dish and the satellite is required to give high-quality internet. To assure robust transmissions, SpaceX is using low-Earth orbiting satellites, which are around 550 km above the planet. As we stated before, these satellites have a limited area range and so it is necessary to use more satellites to provide internet access everywhere — in order to construct a satellite web. Consider it a network of satellites that are linked to one another and work in unison to give internet to every corner of the globe. SpaceX intends to launch thousands (perhaps 40,000) Starlink satellites to assure global coverage without service interruptions.


Where can I find Starlink?

Before you hurry to your computer and get Starlink, you should be aware that satellite internet is not available everywhere. Despite the fact that the internet is being transmitted from space, Starlink must obtain permission and licences from the government before beginning operations in a country.


Starlink is currently available in beta in the following countries:


• United States of America

• The United Kingdom (UK)

• Canada

• Australia

• Germany

• Portugal

• Denmark

• Chile

• Ireland

• Austria

• France

• Belgium

• Switzerland


It is important to note that even though these nations are supported, the service may not be available in all regions. We still recommend that you check Starlink's website to see if the service is accessible in your area. Enter your address in the "Service Address" section of the main page to check availability. If Starlink is not available in your area, the website will display a banner with the text. Hope this article helps you to understand what actually starlink is.

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Programming Languages

Today we will talk about the 3 most demanding programming languages for the future. First, let us talk about what are programming languages:

Programming language?

A programming language is a method of communicating with computers used by programmers (developers). These languages consist of specific codes to develop programmes that do specific tasks to perform.

The poll estimated that programming positions are anticipated to grow by 25% by 2028. And according to Wikipedia, there are around 700+ programming languages in the market today.


We have arrived at our list of three programming languages which will help you find a good job opportunity in future.


1. Python.

Python is one of the most popular programming languages today, and its accessibility makes it simple for beginners to master. This multi-purpose high-level language Python, created by Guido van Rossum, has evolved remarkably quickly over the years to become one of the most popular programming languages today. 

It is a free, open-source programming language with a large community and comprehensive support modules, as well as user-friendly data structures, an easy interface with online services, and a Graphical user interface, GUI-based desktop applications. It is a well-known programming language used in machine learning and deep application learning. 

Most importantly, Python is also used to create 2D and 3D animation applications such as Blender, 3DMax, Autodesk and many more. It has also been employed in the development of popular video games such as Civilization IV, Vegas Trike, and Toontown. Today famous websites like youtube, Pinterest and Quora also use python, other than that scientific and computational applications such as FreeCAD and Abacus also take the help of python.

Annual Salary Estimate: $100,000+



2. C and C++ Language:

C is the most ancient and widely used computer language, and it provides the foundation for other programming languages such as C+, Java, and JavaScript.

C++ is a more advanced variant of C. Many developers don't not use C language today, but many of them still believe that studying C first gives a solid basis for C++ programming. Both are commonly used in computer science and programming.

C++ is a general-purpose programming language that is commonly used in competitive programming environments such as code forces, code jam, hacker rank, HackerEarth, and so on. It supports imperative, object-oriented, and generic programming. C++ runs on a variety of platforms, including Windows, Linux, Unix, and Mac.

Even after over 50 years, both programming languages are being utilised to produce rock-solid and some of the fastest apps ever. 

The programmers of C and C++ can use compilers for a wide range of platforms, making different applications in these languages very portable. C and C++ are both considered high-performance programming languages. As a result, they are commonly utilised in the development of applications where performance is crucial, such as client/server applications, commercial products such as Firefox and Adobe, and video games. Every year, C and C++ engineers make an average of $118,366. So studying and mastering this technology provides incredibly high pay, incredible career potential, and global recognition.

Annual Salary Estimate: $120,000




3 . Java

Java is one of the most widely used programming languages nowadays because write it Once, and  Run it Anywhere (WORA) you want. This programming language with an object-oriented structure, owned by Oracle Corporation, has become a standard for applications all around the world that can be utilised independent of the platform (e.g., Mac, Windows, Android, iOS, etc.). There are currently over 4 billion devices running on Java-based applications today.


This language is widely used in web designing, application development, and big data. Java is also utilised on the backend of several well-known, famous websites, like Google, Amazon, Twitter, and YouTube. It is also widely employed in a wide range of applications. Spring and Hibernate are popular new Java frameworks.

There are hundreds of ways to learn Java with millions of Java developers globally. Furthermore, Java programmers have a large online community that helps each other solve problems.

Annual Salary Estimate: $ 109,225