A 5.5 Hour Time Lapse I Made Of Mercury Transiting The Sun The Other Week, Shot From My Apartment Roof

This is Earth, our amazing home. The only planet in the solar system with the ability to harbor life (that we know of).

This is the distance between our awesome planet and the moon. 

Doesn’t look that far does it? How about if I told you that you could fit EVERY planet in our solar system neatly in that distance. 

Speaking of the other planets in our solar system, this is them & this is where our amazing planet resides.

The moon’s our cute little companion. This is the United States compared to it.

The planets in the solar system are so cool. This is what North America looks like in comparison to Jupiter. 

Speaking of Jupiter and the moon, this is what it would look like if Jupiter was in the place of the moon. (The white dot is our moon). 

Earth compared to Saturn (well 6 Earths…)

Ever wonder about what Earth would look like if it had rings like Saturn? Well wonder no more.. 

Amazing right? Want to see something cooler? Here is the Earth compared to our Sun. 

Here’s what we look like from the moon

And from Mars

From Saturn 

From Neptune…

Here is what the Sun looks like from Mars

Remember what Carl Sagan said? There are more stars in space than grains of sand on every beach in the Earth. 

That’s a lot right? That only means there are stars way larger than our Sun..like this one for example: 

And there are stars bigger than that….

Stars are huge, but the galaxy is even bigger. If you shrunk the Sun down to the size of a white blood cell, the Milky Way Galaxy would be the size of the United States. 

This is where the Earth is in our huge galaxy 

You know all the stars we see in the sky? These are the ones we only ever see (this isn’t our galaxy but its very similar)

The Milky Way is so big that the last time the Earth was in this exact position in the galaxy, the dinosaurs were here

Even though our galaxy is huge, there are galaxies that are even bigger…

This picture from Hubble shows thousands of thousands of thousands of galaxies that each have their own stars with their own planets…

Here is one of the galaxies in that picture. It is 10 BILLION light years away. When we look at it, we are looking 10 BILLION YEARS BACK IN TIME

And just to keep this in mind, this is a very small portion of the sky that was believed to be empty…

Everything is relative. 

Next time you’re stressed out or worried about something, stop and take a step back. Look up at the sky and think about all of the things that are out there. All the stars being born, the stars dying, galaxies colliding. 

We live in such an amazing universe, and we are only an extremely tiny part of it. 

Credit- pictures from: Buzzfeed on Facebook

Petition to put James Veitch on the pedestal he deserves, next to Brian David Gilbert, John Mulaney and Bo Burnham on the chart of Skinny Twinkish Chaos Elementals who are Doing Their Best.

How To Code: Insertion Sort in C language

Insertion sort is a basic algorithm for sorting elements in an array or list. Insertion sort works by grabbing one element and comparing to the element next to it. If the element is larger than its neighbor, then the element is left in its original position. If the element is smaller than its neighbor, than it compares it to the other previous elements to find a suitable position. Then all larger values are shifted up a space and the element is inserted into the correct position.

Output:

Sorted Array array:[17][26][36][48][52]

*me on ellen*

ellen: so i hear u like spyro the dragon

me: yeah i guess u could say i’m a bit of a fan

*everyone in the audience turns to crystal*

me: omg ellen u didn’t

The First Galaxies: What We Know And What We Still Need To Learn

“As we look farther back in time, we find that younger galaxies formed stars at faster rates than galaxies do today. We can measure the star-formation rate, and find that at earlier and earlier times, it was more intense. But then we find it hits a peak when the Universe is about two billion years old. Go younger than that, and the rate goes down again.”

We’ve come incredibly far in our quest to learn how the Universe came to be the way it is today. We can see out in space for tens of billions of light years, to galaxies as they were when the Universe was only a few percent of its present age. We can see how galaxies evolve, merge and the stars inside change. And we can see to even before that, when no stars or galaxies existed at all. But how did we get from there to here? There are still plenty of gaps in the story. We’ve never seen the first stars or galaxies; we’ve never witnessed the start of cosmic reionization; we’ve never seen the star formation rate jump from zero to a real, finite number. Yet with James Webb and WFIRST on the horizon, these gaps in our knowledge may – if we’re lucky – all disappear.

Come get the story on what we know about the first galaxies, and what we hope and have left to still learn!

We know more about the surfaces of Mars and the moon than we do about the bottom of our oceans. Source  Source 2  Source 3

Love him to Mars and back ❤️

Actual advice on how to study for engineering courses from a first year student

Okay so I just finished my first semester in university and lets just say I’ve got to change my whole learning/studying style to be able to survive here. Here are some of the things I’ve learnt to do and will be doing in second semester:

1. Start backwards:

 I highschool, you try to learn the subject by going to class, listening to the teacher, then going home, reading the textbook, then doing the homework, then making notes, then studying for the final. In engineering, you have to do this backwards: You will realize that you are going to be basically teaching yourself the content one way or another soon before the finals, so better start now. First, go through the past exams and past papers - make a list of all the major topics covered (example: if in an electrical circuits course, a question on a past final exam is “find the equivalent circuit using thevenin’s theorem” then write Thevenin’s theorem as a topic to be learned). Then go on youtube and find videos that explain each of these topics to you and make rough notes on these topics. (Reblog if you want me to make a master list of all the youtubers that teach engineering really well). Then go through he textbook and find sample questions not he theorem/topic you learnt off of youtube, and solve them. Then write your doubts in a notebook. Then go to class and have two notebooks open : one where you are taking notes of what the prof is saying, and one which has your practice problems solved, and see if the prof clarifies your doubts in the lecture. The lecture should be review of what you learnt at home!!!! Then, after class go to the prof and clarify any doubts. Then go home and make final notes on the topic. I like to make notes on cue cards (more on this later). Then go back to the final exam and see if you can solve the problem.

2. Make cue cards:

I like to get index cards and write a short note on how to solve each type of question I am likely to see on a final exam on each question card. Example: one cue card for “how to find resistance using wheatstone bridge” . I link the cue cards with a clip and its easier to carry the around and study.

3. Get pretty notebooks and organize your stationary. Its easier to stay focused when everything is pretty. 

Easy win for Tesla 🖖