THE SUN

• The Sun is one of more than 100 billion stars in the Milky Way.
• The Sun lies at the heart of the solar system, where it is by far the largest object.
• The Sun was born roughly 4.6 billion years ago.
• Most of the material was pulled toward the center to form the sun.
• thre core roughly 2 percent of the sun's volume, it is almost 15 times as dense

ALBERT EINSTEIN

• Albert Einstein was a german-born theoretical physicist.
• Einstein's work is also known for its influence on the philosophy of science
• Albert Einstein created the equation E=mc^2. this is Einstein's theory.
• At age 12 Albert taught himself geometry.
• Albert Einstein changed how everyone thought about space.

ISAAC NEWTON

• was born January 4, 1643, in Woolsthorpe, England, United Kingdom
• Newton actually studied for a degree in law.
• He owned more books on historical subjects than on science.
• In 1696, Newton was appointed warden of the Royal Mint.
• He died March 31, 1727, in London, England, United Kingdom

Untitled Slide

• The SUN has a 10 kilometre difference in its polar diameter.
• The Sun 225-250 million years to complete an orbit of the Milky Way.
• Einstein's equation gave birth to the first atom bomb
• a Joule is a quantity of energy it is also a quantity of mass.
• One Joule has a mass of 10,-17 kg and a kilogram of mass weighs 1017 Joules.

Untitled Slide

• Every object remains in a state of rest of the 1st law of motion
• Inertia is the resistance to changes in motion.

Newton's first law states that every object will remain at rest or in uniform motion in a straight line unless compelled to change its state by the action of an external force. This is normally taken as the definition of inertia. The key point here is that if there is no net force resulting from unbalanced forces acting on an object (if all the external forces cancel each other out), then the object will maintain a constant velocity.

The average person probably doesn’t think about it on a daily basis, but yet gravity affects our every move. Because of gravity, we fall down (not up), objects crash to the floor, and we don’t go flying off into space when we jump in the air. The old adage, “everything that goes up must come down” makes perfect sense to everyone because from the day we are born, we are seemingly bound to Earth’s surface due to this all-pervasive invisible force.

E=mc2 has also enabled the creation of new technologies like PET scans in the health sector, nuclear energy, etc.E=mc^2 is a version of Einstein's famous relativity equation. Specifically, it means that energy is equal to mass multiplied by the speed of light squared. While seemingly simple, this equation has many profound implications, chief among them being that matter and energy are actually the same stuff.
vb

Enter E=mc2. This seemingly simple algebraic formula represents the correlation of energy to matter (energy equivalence of any given amount of mass). Many have heard of it, but not very many understand what it implies. Many people are unaware of just how much energy is contained within matter.

Einstein’s theory of relativity (1906). Energy can change into mass, and mass can change into energy Mass disappears & energy appears. Energy = mass × (speed of light)2. Chemical reactions convert little mass into energy. Every person on Earth runs a battery for 1 hr. So say your on your phone and your on their for a hour, then when start playing a game your phone dies.

Isaac newton's 1st law of motion helps us understand the sun because of planetary orbits.
the planets orbit around the sun. Force has a part in this also. If there was no force the planets would fly off in a straight line. But if we didn't have gravity the planets would go deeper and deeper into space. Therefore our planet will go farther and farther away from the sun making the earth kind of like a big ball of ice.