From 2f94b68e74bb1f2336bcd07c1c9000124063c276 Mon Sep 17 00:00:00 2001
From: James Su <amagicalsoup@gmail.com>
Date: Wed, 19 Jun 2019 23:37:07 +0000
Subject: [PATCH] Update Unit_5_Astronomy_Study_Sheet.md

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 # Unit 5: Astronomy
 
+## Terms
+- `AU` = Astronmical Unit, which is the distance between the sun and the Earth = $`1.5 times 10^8`$
+- `1 Light year` = $`9.46 \times 10^{12}`$
+- Our milky way is a spiral yeet (forgot full lesson, think this is all you need).
+
+## Layers of the Sun
+|Layer|Temperature|Description|
+|:----|:----------|:----------|
+|Corona|5800<sup>o</sup>C|- Gleaming white, halo-like - extends millions of km into space|
+|Chromosphere|65 500<sup>o</sup>C||
+|Photosphere|5 500<sup>o</sup>C|- The layer just below the Chromosphere where the light we see originates|
+
+## Inside Of The Sun
+|Zone|Descrption|
+|:---|:---------|
+|Convection Zone|- The `outermost` ring of the sun, comprosing of the `30` percent of its radius|
+|Radiative Zone| - The section immediately `surrounding` the core, comprising `45` percent of its radius|
+
+### Core
+- `Hottest` part of the sun, reaching $`15,000,000^o`$C
+- Energy released by **nuclear fusion** continues to move outward until it reaches the photosphere
+- #### Compostion
+    - **75%** `hydrogen`
+    - **25%** `helium` (with small amounts of other gases)
+
+### Nuclear Fusion
+- The sun is made out of **hydrogen** atoms.
+- The Sun’s energy comes from the **nuclear fusion** reactions that occur in the **core** of the Sun.
+- **High temperatures** and **pressure** cause particles to collide at extremely high speeds. The **hydrogen** atoms of the sun fuse together forming **helium** atoms.
+- Gives off **enormous amounts of energy**.
+
 ## Suns Affect on Earth
 
 ### The Aurora Borealis (Northern Lights)
@@ -70,4 +101,85 @@
 - Most comets have 2 tails;
     - `gaseous tail`
     - `dust tail`
-- <img src="https://malagabay.files.wordpress.com/2017/09/comet-tails.gif?w=600" width="500">
\ No newline at end of file
+- <img src="https://malagabay.files.wordpress.com/2017/09/comet-tails.gif?w=600" width="500">
+
+
+## Big Bang Theory
+- It happened around 13.7 billion years ago when the Universe was a infintely dense point.
+- Formed from an extremely dense singularity (centre of a black hole)
+- Prior to that there was nothing
+
+### Evidence to support theory
+- #### Redshift and Hubble’s Law
+    - Hubble observed the line spectra from many different galaxies in sky, and most of spectra for galaxies were shifted towards the red end of the spectrum, a red shift
+    - Hubble concluded that if most of galaxies were redshifted, they must be moving in all directions and the Universe is expanding from a single point
+- Space between galaxies expand, not the galaxies themselves
+- **Dark Matter:** the rest of the Universe appears to be made of a mysterious, invisible substance called dark matter (25%) and a force that repels gravity known as dark energy (70%)
+    - 90% of matter in and between galaxies is of an unknown form that does not emit or absorb light
+    - Can be detected through its gravity by the way it affects objects we can see
+    - Without dark matter, normal matter would have been unable to clump and form stars and galaxies
+
+## Apparent and Absolute Magnitude
+- `Luminosity`: Total amount of energy produced by a star per second
+- `Apparent Magnitude`
+    - Brightness of a star in the night sky as they appear on Earth
+    - The lower the number, the brighter the star is
+- `Absolute Magnitude`
+    - Brightness of a star as if they were located 33 ly from Earth
+    - The lower the number, the brighter the star is
+
+## Size of stars changes their lifestyle
+
+### Hertzsprung Russel Diagram
+- The Hertzsprung-Russell Diagram is a graphical tool that astronomers use to classify stars according to their luminosity, spectral type, color, temperature and evolutionary stage.
+- Basically plotting the class of the stars based on their lumionsity (how bright they are) and their temperature (how hot they are).
+- <img src="https://lh5.googleusercontent.com/ABuKmOEUapLg2_IBkHygdUrJqmUYt1fgCdkqICNdHma4SoTeLbTh6XpLAXYCnbabzhlXxzatOKRGu7U_6F9cQOlHd2H3h2Sf2uC7HPUkpVZxGJr5ZMDN8zzn6hMvUavWBdBYr1zS" width="800">
+
+### Low Mass Stars
+- With less gravity, burns hydrogen fuel slowly and lasts for 100 billion years, matures into red dwarf, and when fuel for nuclear fusion runs out, becomes a white dwarf
+
+### Medium Mass Stars
+- Lasts for 10 billion years
+- When a medium mass star runs out of fuel, it collapses under its own gravity, collapse heating up and pressure increases causing nuclear fusion of helium
+- Star expands and becomes a red giant, eventually burning out to form a white dwarf
+- When white dwarfs become cool enough to no longer emit heat or light, they become black dwarfs, however since the time required for a white dwarf to reach this state is older than the Universe, no black dwarfs currently exist
+
+### High Mass Stars
+- Lasts up to 7 billion years, 10 times size of our Sun
+- When high mass star runs out of fuel it collapses and expands to form a supergiant
+- Supergiants end in a violent massive explosion called a supernova
+- End results - Cosmic debris (nebula), a neutron star (or pulsar) or a black hole 
+
+### Supernova
+- Supergiants that run out of fuel end in a massive explosion
+- Nuclear fusion reactions occur and new elements form and explode into space
+- Debris from explosion is source for a new nebula, and what happens to the stars remaining core depends on original size of the star
+
+### Neutron Stars
+- Remaining core of a supergiant that is less than 40 times the size of our Sun
+- Also called a pulsar, very dense matter made of neutrons
+
+## Black Holes
+- Remaining core of a supergiant that needs to be more than 40 times the size of our Sun
+- Core of the supergiant after a supernova is so dense that its gravitational pull sucks in space, time, light, and matter
+- Thought to be at the centre of all galaxies
+
+## Formation of Stars
+|Stage|Description|Picture|
+|:----|:----------|:------|
+|1. Birth and Early Life|- Life for a star begins in a **nebula**, which are HUGE, unevenly distributed clouds of dust and gases (**mainly H** & **He**).<br>- Denser areas gather surrounding material due to greated **gravitational pull**<br>- As material is added, gravity increases , drawing in even more material… then density and pressure increase as well.<br>- This core and surrounding material start spinning more as they continue to condense. (like a figure skater)<br>- Any surrounding dust and gases that aren’t drawn into the core will **flatten out** to look like a disc around the core. (the natural tendency for all spinning objects)<br>- **Temperature begins to rise** due to atomic collisions and start emitting **low level energies like microwave & infrared**.<br>- This is now called a protostar.|<img src="https://www.myastroshop.com.au/guides/vc200l/helix-judge-s.jpg" width="500">|
+|2. Main sequence phase (adult star)|- As core temperature reaches a critical point (15 million °C), **NUCLEAR FUSION begins** and it becomes a *star**. <br>- H atoms join to form He atoms, releasing enormous amounts of **high energy radiation**, which also **emits light energy.**|<img src="https://lifecycleofstarsscience.weebly.com/uploads/1/8/8/2/18823332/2663663_orig.jpg?363" width="500">|
+|3. Old Age|- Once a star’s core has **used up its H**, it fuses **He**, which **releases even more energy**. <br>- This causes the star to swell into a **red giant** or **red supergiant** depending on their original mass.|<img src="https://images.newscientist.com/wp-content/uploads/2018/01/18185636/gettyimages-648917144-800x533.jpg" width="500">|
+|4. Death|- An average star “dies” when it doesn’t have enough energy to continue **nuclear fusion** (usually once it forms **carbon**). <br>- For a star like our sun, the core shrinks/collapses, releasing the outer layers of gases. <br>- The `small, hot, and dense core` becomes a **white dwarf**, while the outer gases form a new **nebula** around it. This combo is called a **planetary nebula**. <br>- A more massive star will do fusion up until **iron** then collapse, but the outer layers will explode off this iron core to form a **supernova**.|<img src="https://i.ytimg.com/vi/aysiMbgml5g/maxresdefault.jpg" width="500">|
+|5. Remains|- **Small red giants** collapse & shrink into a **white dwarf**, which will slowly cool down and eventually **fade out** (no energy emitted) to be a **black dwarf**.<br>- **Large red giants** explode as a **supernova**, & will form either a **neutron star** or even a **black hole** if the core has enough mass.|<img src="https://fortunedotcom.files.wordpress.com/2019/04/first-image-of-black-hole-national-science-foundation.jpg" width="500">
+
+<img src="https://files.catbox.moe/la2ho5.png" width="500">
+
+## Space Composition
+- <img src="https://files.catbox.moe/q0ofhp.png" width="500">
+
+### Dark Matter
+-  The rest of the universe appears to be made of a mysterious, invisible substance called dark matter (25 percent) and a force that repels gravity known as `dark energy` (70 percent). Scientists have not yet observed `dark matter` directly.
+- `90%` of matter in and `between` galaxies is of an `unknown` form that `does not emit or absorb light (so we can’t see it)`.
+- It can be detected through its `gravity` by the way it `affects` objects we can see. 
+- Without dark matter, `normal matter` would have been unable to `clump` and `form` stars and `galaxies` - and US!