Two years of blogging!

That’s right, its been 2 years and I am not bored yet! I have started this blog on 4th, April, 2015, with zero expectations. Probably this is one of the very few things I did consistently for so long. Two years!! When I look back, I can’t tell about you, but I have become more “informatic”. I got to know a lot about blogging. I have started a self hosted blog 6 months ago, DAMN!! There was actually a lot to know before and after creating a self hosted blog.

Very recently, on 26th march 2017, I got the approval of Google AdSense!! And there is a big back story for it, to understand that just compare this WP hosted blog (https://informaticcoolstuff.wordpress.com/) and the self-hosted blog (http://informaticcoolstuff.in/).

Exactly a year ago, I wrote an article to celebrate one year of blogging, here’s the link to it One year of blogging., also an article, when I have reached my 100 articles count (!00th article with 100 fellow bloggers.) and an article on getting 50 wordpress followers on my blog (50 followers on wordpress.), right now I have 341 wordpress followers on this blog and 118 followers on self-hosted blog… That’s quite a long and fun journey. When i read those previously mentioned articles, I can clearly see what I have been doing. I mean, one article containing all that i did till that article… Sounds great right! Like “!00th article with 100 fellow bloggers” article contains almost all the work i did untill that article.

Ok, now let me give you all my favourite posts I did after the article “One year of blogging“. Before that, let me tell you why I do this kind of post… I celebrate any special milestones on my blog with all my favourite articles at one place.

I guess you wouldn’t be able to read all of those article completely, so, let me thank all the readers for reading my articles and for all their constant support. All the bloggers in this, so called “blogospehere” are amazing and inspiring.

Here’s are those article, ENJOY reading…

!00th article with 100 fellow bloggers.

Future of batteries

Complete story of “Nokia”!

Flying windmills!

what is E-Paper? How it works?

Solar Panel! How does it work?

My new self-hosted blog!

Machines that never stop!! Perpetual motion machines?

RFID! Is that the future of barcodes?

Antimatter?

What is “BIG” data?

Iris Scan vs Retina Scan…

What is Gravitational lensing?

Computer Part-2. Processors!! What does i3,i5,i7 mean?, Computer! Part-1

Deep web and dark web??

Boomerang!

Light bulbs! History and science…

Science of Muscle building!

Space Elevator! Possible?

What’s your speed right now?

Science of becoming Batman!!!

“WIND” Where it comes from?

GLOWING PLANTS!

Live forever “Frozen”(Cryonics)!

Misconceptions about tides! What really causes tides?

What’s Encryption? And what’s Quantum Cryptography?

Spherical Tires!!!

 

 

 

 

 

 

 

Black spots on one side of the moon??

If you have read my previous article( Dark side of the moon), you might be knowing that, what this article would be all about… Well.. Go ahead and read it! If no time, here’s a quick recap… Only one side of the moon face our earth all the time, due to tidal locking. Now, let’s see  how those black spots are formed on one side and no such spots on the dark side..

When we see the moon from our earth, we can see some dark spots on the moon. But when the first ever photo of the dark side of the moon was captured, unlike the side of the moon we see, it was observed that there were no dark spots on the other side of the moon!

The technical term for those black spots is MARIA. Now, the rare side or the far side consists of massive mountains but the side of the moon we see does have those black spots or MARIA, why?

Before all these, how did those blackspots were formed??

One of many theories is… A few billions of years ago, a planet sized object hit the earth and the debris due to this collision resulted in the formation of the moon. At that time Earth and moon were just two hot burning ball and as the moon was smaller compared to earth, it cooled faster than earth but the way it was cooled was uneven, this uneven cooling was because of the fact that the side of the moon that is facing the earth was still experiencing the heat due to the earth. And the side that isn’t facing the earth was cooled already, well before the side of the moon facing the Earth.

Because of this uneven cooling of the moon, one side of the moon is denser than the other, this is also responsible for the moon to slow down and causing only the bulged side of the moon to face our earth or technically the “Tidal Locking”.

When asteroids kit the moon on the dark side, massive mountains were formed, on the other hand when asteroids hit the side of the moon facing the earth, the lava eruptions took place due to the weak crust and we see the solidified lava as the black spots from the Earth.

 

Dark side of the moon!!!

When we look at the moon in the night sky, all the time we only see one side of the moon. We on Earth  never get to see the far side or the dark side of the moon! Ever thought why?

Well… Let’s see why? the Moon makes one revolution around the Earth about every 29 days, and that’s what causes the Moon phases. But the Moon also rotates once every 29 days also. Because of this, the same side of the Moon always faces the Earth. This is because of something called tidal locking.

Tidal force is like, When you are standing up, Gravity acts on you. And your feet are just a little bit closer to the center of the Earth than your head, this means that the Earth pulls with a slightly larger gravitational force on the lower half of you than the upper half. This slight difference is called a tidal force.

When something like a Moon is close enough to a planet, these gravitational tidal forces cause the Moon to spin at the same rate that it revolves around the planet. When this happens, we call it tidal locking, and that’s why we always see the same side of the Moon!

If you want to know, how tides are formed on ocean, read this What really cause tides?Also, do you know that the far side of the moon doesn’t have the dark spots like on the near side of the moon? Find out why on my next article..

 

What is “BIG” data?

Before we get into “Big data”, let’s see what actually data is. Data is a value assigned to a thing. For example, assume a chocolate. For a chocolate to be unique, there are a few specifications(data) like colour, cost, type, small candy or a big chocolate. Each specification above is a data, but individual data is purely meaningless by itself.

When all those data is combined, we get meaningful “information”. This is something brief about Data. Now, let’s see what Big data is.

Previously only companies used to enter data into the computers, but now with the internet, even users (we) POST or enter huge data, it is estimated that we produce 2 quintillion (which means 1 followed by 18 zeros) bytes of data every day.

How?? For example through facebook or twitter or for that matter any social networking  website the data is given, when we signup or enter our data or post photos or even tweet makes it a data. This is kinda huge data, from just companies entering data to users entering data. Now, we even have machines entering data on a daily basis, like entering the weather information, traffic info, even satellites etc… This huge amount of data is called BIG DATA.

Big data is very useful in various fields, for example, if all the traffic data is accurately taken and processed everyday and everywhere or atleast for a confined place, then it is easy to build a self driving car with all the “traffic” awareness;) Even useful for INTERNET OF THINGS(Internet of things ) This is just a flick on how big data can be used.

Processing is nothing but getting information from the data right! So, how do we process that huge millions of bytes of data?

Well, in those old days, we used to give the data to the computers to process. But now with the tremendous amount of data, we are bringing multiple processors to the data. If you have ever seen server rooms containing data, each server contains processor to process the data.

Quick thought: Some tasks that humans find easy are still difficult for computers;)

Image from Google…

Computer Part-2. Processors!! What does i3,i5,i7 mean?

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Part-1 (Computer part-1) of computer was all about, how a computer takes in info.. In this part-2 of computer let’s see what a processor does and how to choose a processor!! This is still an arguable and ground breaking issue …

processor is commonly referred to as the CPU. It can process computer instructions per second measured in hertz. So, it is important to check the clock speed… Like 2 GHz, 2.5 GHz etc..

When it comes to processors, it might be of any company Intel or AMD, the specifications we need to look at, are the same. Few important specs are: number of cores,  32 bit or 64 bit, Cache.. Let’s see each of them,

 

Number of cores (multi-core) 

We are so much familiar with the words single core, dual core, quad core etc.. Dual core has two single cores and quad core has four single cores. In simple words a single core is like one calculator, a dual core has two calculators.

This does’n mean that a 2 GHz dual core is equal to a 4 GHz single core in performance. All this means is that you have two 2 GHz cores working for you instead of one. This is so important to understand the difference, most people confuse here in selecting.

As it goes above, dual core has two calculators and single core has one calculator, if we give an instruction, suppose a mathematical calculation, we can use only one calculator at a time. Having two calculators or having dual core doesn’t make our job any faster in this case. Same is the case with dual core.. Then what is the use in getting dual core or even quad core?? It is so simple answer, when we give multiple instructions or in this case two mathematical calculations. Then each mathematical calculation uses one calculator, with this the two tasks will be completed in very less time..

So, number of cores is equal to number of calculators.. In order to make use of all the cores present there is something called “multi-threading.” A program that’s multi-threaded – written for more than one core – can take advantage of a multi-core processor, even for only one operation by dividing  it among the cores. Multi-cores benefit isn’t necessarily one of speed, but one of smoothness.

It’s so important to know that the extra cores may go to waste. More than that, more cores means more power draw and with that more heat. In a notebook, these become serious considerations.

32 bit or 64 bit? How to choose?

 

Every  hardware component in a laptop requires what’s called an “address” and it is normally be occupied by memory. Your computer knows everything in it by its address, and everything uses memory addresses. So if you only have 4 GB worth of addresses, all the other parts are going to start eating into that, leaving part of the 4 GB of physical memory you have untouched. This is why when you put 4 GB of memory into a Windows XP or Windows Vista 32-bit machine, Windows doesn’t give you the full 4 GB – it may give you as little as 2.5 GB or as much as 3.5 GB, depending on the hardware you have in your machine.

What a 64-bit processor and 64-bit operating system does is dramatically raise the amount of memory your computer can address. By increasing this limit, it allows the computer to see the full 4 GB and still have room for everything else. Still, the move to 64-bit, provided you’re running at least 4 GB of memory can generally be beneficial.

Cache:

 

Cache is basically a memory, or RAM, that’s been built into the processor. if cache is so much faster than memory (and it is), why bother with memory at all? Why not just integrate all that memory into the processor itself? Because memory is physically huge. Sure, it’s not that big when you look at a processor or a stick of memory, but on a typical processor, the L2 cache takes up roughly half the die. So if as little as 4MB of cache takes up that much space, try to fathom how much space 1GB would need.

So, don’t worry much about Cache

Now, let’s see Intel’s i3, i5, i7 processors!!

As long as you understand the above specifications and what each specification does, you are good to go…

First of all,these terms correspond to processors from the specific brand of Intel.

Before you make a purchase though, you should really think about what you are going to do with you computer.  If you are just using your computer to email, surf the web etc…You will be just as fine with a Core i3.

If you are editing multiple files in Adobe Flash, with virtualization software, playing the newest RPG computer game you may notice the Core i5 to be much more faster. The Core i5 is great.

The Core i7 are the current most expensive and top of the line from the Core series of Intel processors. For most computer users, the i7 is probably much more than they’ll actually need or even think they need.  But, if you want the best of the best that will run your video rendering programs, giant RPG games, and many other higher technical programs, go for i7.

There are still lot more to talk about computer which we would do in the next part!!:)

Boomerang!

Boomerangs have been around for thousands of years now. Traditionally, returning boomerangs are lightweight, made of wood, and consist of two separate wings which meet at an angle at the joining.

All boomerangs aren’t made to come back! Some are made just to hit the target. Now let’s see, how a coming back boomerangs work?

The top and bottom portions of a boomerang are made in an aerodynamic shape or an airfoil shape. Top one is Leading edge and the bottom one is trailing edge.  When boomerang is thrown and the air passes through this shape, it results in a lift as shown below.

airfoil_incorrect

When you throw a boomerang, there are two speeds to be considered, one in the forward direction and the other is rotating speed. This makes it fly and rotate at the same time. As the boomerang spins through the air, the wing at the top of the spin is moving through the air at a faster rate than the wing at the bottom. This makes the top portion generate more lift than the bottom portion as it cuts through the air.

brng

Because the top portion of the boomerang is moving faster than the bottom portion, some torque is generated, which makes the boomerang tilt the plane of rotation slightly such that, the boomerang ends up flying in a curved path through the air. This makes the boomerang come back. It’s not easy to catch the boomerang back. It depends on the angle and force with which you throw with..

 

 

All those images are from Google!

 

Science of Muscle building!

“Muscles”, there are three types of them Cardiac, smooth and skeletal muscles. Building muscles usually refered to building skeletal muscles

While you use your muscle to lift something, your muscle experience some tiny tears in the muscle fibers. This is the first step of muscle growth. So, tiny tearing of muscle fibers is good in this context. When muscle breaks, something called cytokins are released. These repair the muscle, that’s the time when the muscle grows.

But the correct amount of tension is required for a muscle to undergo tiny tears, which with the help of protein leads to muscle growth. That’s the reason why body building experts suggest to increase tension in the muscle gradually. In other words, gradually increase the weights you lift.

On the other hand, people who do calisthenics or body weight workouts, must know how to increase tension by incorporating compound movements where ever possible. Calisthenic exercises mostly have compound movements, which is good and absolutely helps build muscle. Personally I feel body weight workouts are the best. Because there is a lesser scope of getting injured, it has compound movements and the “burn” we feel after an intense body weight session is amazing.

The “burn” you feel after an intense workout is simply an infusion of lactic acid in the muscle, which is produced as a muscle burns its energy stores. The pump you feel when training is a result of blood being “trapped” in the muscles.

If a workout causes too many micro-tears, then the body will fail to fully repair the muscles, and muscle growth will be stunted. If a workout causes optimal micro-tearing but the body isn’t supplied with sufficient nutrition or rest, no appreciable amount of muscle growth will occur.

Building is all about exercising with correct tension, sufficient amount of rest and good food! And to take every nutrient correctly, for proteins sources, read more about the protein sources here Top 5 vegetarian protein sources.

Took that cool muscle GIF from Google😉

 

 

Computer! Part-1

As our modern days term goes, a machine that runs certain operations is known as a Computer. In the past before our “Electronic” computers, we had counting devices. Even an abacus or a mechanical calculator is a computer! Yeah, that’s true. Recall the basic requirement of a computer “To perform basic mathematical operations” right!

So what are operated in a computer? Yeah, numbers.. All those counting devices have their own ways of representing numbers.

Now, how do modern days electronic computers take numbers?

Well… Let’s see from the start. The basic way was representing every number using only 0’s and 1’s. We use something called “Boolean algebra” to do so. That’s actually something interesting and maybe you have already done it.

Then, how to use an electronic device to do so?

The basis for this is the voltage( high or low). High represents ‘1’ and low represents ‘0’. Making this basis, we have tried a bunch of devices. The first one was “vacuum tube”, consisted of an anode and a cathode(diode) in a vacuum created tube. Giving a voltage to the cathode release some electrons and are attracted towards the anode( with a higher ‘+’ potential), and by varying the voltage at cathode we get a “high” or “low”( 0 or 1).

Then we had triode, it just had an extra electrode between cathode and anode, which enables the flow of current. Varying the voltage of that extra electrode allows or stops the electrons to flow resulting in a ‘0’ or a ‘1’.

Though they work, those devices have their own disadvantages. Not efficient, bulky and all.

So, to overcome all those disadvantages scientists used “Transistors”. Unlike diodes where they use electrodes, transistor uses something called semiconductor. By using a method called “Doping”, we mix semiconductor with various elements. And create ‘p’type and ‘n’ type. When these n type and p type are arranged alternatively, it forms an npn transistor, with something called p-n junction between p type and n type.

And there is a voltage limit called threshold voltage, the current only passes through the junction, when the voltage is more than threshold voltage. If the voltage is low and the current won’t pass, then that’s a ‘0’ and if the voltage is high and the current passes through, then that’s a ‘1’.

This is how an “Electronic” computer takes in a number. Believe it or not, there might be millions or even more transistors in the electronic device through which YOU are reading this article;)

I want this to be like a big franchise titled “Computer”!!! This is just a beginning part-1, I am left with so much to talk about the machine responsible for making so many things happen, including my blog;)

 

 

“Gravitational Waves” found yet again!

Here’s a quick update…

Last year in september, for the first time ever scientists Laser Interferometer Gravitational-Wave Observatory (LIGO) have observed Gravitational waves. The source of these waves were the product of the collision between two black holes into a giant single black hole occured 1.3 billion light years away

On December 16 2015 LIGO observatory for the second time detected a signal, which now confirmed as Gravitational waves. The scientists at LIGO converted these gravitational waves into sound waves, here’s how they sound!

This yet again proves the Einsteins theory of relativity..
When two dense objects such as neutron stars or black holes orbit each other, space-time is stirred by their motion and gravitational energy ripples throughout the universe.

 Learn more from my previous articles about”Gravitational waves?“, “First ever discovery of gravitational waves“, and “Origin of our universe“!!

 

Science of becoming Batman!!!

“Batman”, he’s one of the most famous and a rare superhero without supernatural powers. He’s just an ordinary man rather billionaire with extraordinary skills. But it took so much more than money in becoming a superhero…

We have most of what Batman has in the world today, there are people who can do chunks of what Batman can do. That include driving ability, the acrobatic ability, the fighting ability, high intelligence with multiple degrees etc… But we don’t see all those abilities and skills in one person. The physical training routine was estimated and published here Batman training routine. Lets see a small part of his training, he can bench 1000 pounds(454 kgs), can leg press 2500 pounds and does high end calisthenics, I am jealous! that’s some crazy stuff!!! Even a book “becoming batman” was written by E. Paul Zehr.

Becomingbatman

It is hard for someone to train such hard and still maintain his calorie intake and for muscle recovery. He should need plenty of hours of sleep. But the batman fights crime more at nights. So, how he could be able to manage train, fight crime and recover? lets see about his training part before he became “The Bat of Gotham”( batman).

Under the age of 15, he managed to learn all the sciences, languages and marshal arts. He went to many prestigious universities mastering various subjects, he trained boxing, travelled to various parts of the world learned many skills, worked with great detectives, learned almost all forms of fighting styles existed. Learned many yoga techniques, one of which makes him able to get some thing called Rem sleep (actual sleep). Learned “Tummo meditation”, which makes him to control even his body temperature and limit amount of oxygen he consumes..

All it took for Bruse wayne to become Batman was remarkable determination. Becoming batman is not the only thing left in this world, except supernatural we could become anything in the world with exceptional determination…