Unit 2 Lesson 2 Gravity and the Solar System Copyright © Houghton Mifflin Harcourt Publishing...
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Transcript of Unit 2 Lesson 2 Gravity and the Solar System Copyright © Houghton Mifflin Harcourt Publishing...
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Unit 2 Lesson 2 Gravity and the Solar System
Copyright © Houghton Mifflin Harcourt Publishing Company
![Page 2: Unit 2 Lesson 2 Gravity and the Solar System Copyright © Houghton Mifflin Harcourt Publishing Company.](https://reader031.fdocuments.in/reader031/viewer/2022032709/56649ed45503460f94be45d6/html5/thumbnails/2.jpg)
Gravity
Copyright © Houghton Mifflin Harcourt Publishing Company
What is gravity?
• Gravity is a force of attraction between objects that is due to their masses and the distances between them.
• Every object in the universe pulls on every other object.
Unit 2 Lesson 2 Gravity and the Solar System
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What is gravity?
• Objects with greater masses have a greater force of attraction than objects with lesser masses have.
• Objects that are close together have a greater force of attraction than objects that are far apart have.
• Gravity is the weakest force in nature, yet it is one of the most important forces in the universe.
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Unit 2 Lesson 2 Gravity and the Solar System
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What is gravity?
• Gravity accounts for the formation of planets, stars, and galaxies.
• Gravity also keeps smaller bodies in orbit around larger bodies.
• An orbit is the path that a body follows as it travels around another body in space.
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Unit 2 Lesson 2 Gravity and the Solar System
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What are Kepler’s laws?
• The 16th century Polish astronomer Nicolaus Copernicus changed our view of the solar system.
• He discovered that the motions of the planets could best be explained if the planets orbited the sun.
• Like astronomers before him, Copernicus thought that the planets followed circular paths around the sun.
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Unit 2 Lesson 2 Gravity and the Solar System
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What are Kepler’s laws?
• Danish astronomer Tycho Brahe used special instruments to accurately measure planetary motions over a period of 20 years.
• Using Tycho’s data, Johannes Kepler discovered what we call Kepler’s laws of planetary motion.
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What are Kepler’s laws?
• Upon plotting the orbit of Mars, Kepler saw that it was a deformed circle.
• After eight years of work, he realized that it was an ellipse.
• Kepler then proposed that each of the planets has an elliptical orbit, with the sun at one focus of the ellipse.
• This is Kepler’s first law.
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Unit 2 Lesson 2 Gravity and the Solar System
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What are Kepler’s laws?
• When an object follows an elliptical orbit around the sun, there is one point, called aphelion, where the object is farthest from the sun.
• There is also a point, called perihelion, where the object is closest to the sun.
• Today, we know that the orbits of the planets are only slightly elliptical, but the orbits of objects such as Pluto and comets are highly elliptical.
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What are Kepler’s laws?
• Kepler found that a planet moves slower at aphelion, sweeping out a narrow sector on the ellipse.
• Conversely, a planet moves faster at perihelion, sweeping out a thick sector on the ellipse.
• As a planet moves around its orbit, it sweeps out equal areas in equal times. This is Kepler’s second law.
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What are Kepler’s laws?
• Kepler looked at how long it took for the planets to orbit the sun. He also observed the sizes of their orbits.
• He discovered that the square of the orbital period is proportional to the cube of the planet’s distance from the sun.
• This principle is Kepler’s third law.
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What is the law of universal gravitation?• Using Kepler’s laws, Sir Isaac Newton became the
first scientist to mathematically describe how the force of gravity behaves.
• He reasoned that gravity is the force that accounts for both the fall of an apple from a tree and the movement of the moon around Earth.
• In 1687, Newton formulated the law of universal gravitation.
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What is the law of universal gravitation?• The law of universal gravitation states that all
objects in the universe attract each other through gravitational force.
• The strength of this force depends on the product of the masses of the objects.
• Gravitational force is also inversely proportional to the square of the distance between the objects.
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How does gravity affect planetary motion?• If a ball is attached to a string and is swung
around, it moves in a circular path.
• The inward force that causes an object to move in a circular path is called centripetal force.
• If the string breaks, the ball will move off in a straight line. When the string is intact, the centripetal force prevents the ball from flying off.
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How does gravity affect planetary motion?• When planets orbit the sun, a force similar to
centripetal force prevents them from moving out of their orbits and into a straight line.
• The sun’s gravity is the force that keeps the planets moving in orbit around the sun.
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How did the solar system form?
• The formation of the solar system is thought to have begun 4.6 billion years ago when a cloud of gas and dust collapsed.
• This kind of cloud, from which solar systems form, is called a solar nebula.
• In a solar nebula, the inward pull of gravity is balanced by the outward push of gas pressure in the cloud.
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How did the solar system form?
• Scientists think that an outside force, perhaps the explosion of a nearby star, caused the nebula to compress and contract under its own gravity.
• The solar system formed in a single region of the nebula, perhaps several light-years across.
• The sun probably formed from a region that had a mass that was slightly greater than today’s mass of the sun and planets.
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How did the solar system form?
• As a region of the solar nebula collapsed, gravity pulled most of the mass toward the center of the nebula.
• As the nebula contracted, it began to rotate with increasing speed and flattened out into a disk.
• This disk, called a protostellar disk, is where the central star, our sun, formed.
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How did the solar system form?
• As the protostellar disk continued to contract, most of the matter ended up in the center of the disk.
• Friction from matter that fell into the disk heated its center to millions of degrees, resulting in the fusion of hydrogen atoms into helium atoms.
• The process of fusion released large amounts of energy, the gas and dust stopped collapsing, and the sun was born.
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How did the solar system form?
• As the sun was forming, dust grains collided and stuck together to form dust granules, which increased in size to form meter-sized bodies.
• Collisions between these bodies formed larger bodies, called planetesimals, from which planets formed.
• The protostellar disk became the protoplanetary disk in which the planets formed.
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How did the solar system form?
• The inner part of the protoplanetary disk was so hot that only rocks and metals were in solid form.
• The collisions of rocky planetesimals in the inner disk led to the formation of rocky, metallic planets.
• We call these inner planets the terrestrial planets.
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How did the solar system form?
• In the cold, outer disk, massive planets made of icy and rocky planetesimals may have formed.
• The gravity of these planets was so strong that they captured gas and other matter as they grew.
• Therefore, these outer planets have rocky or metallic cores and deep atmospheres of gas and ice, and they are called the gas giant planets.
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How did the solar system form?
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Unit 2 Lesson 2 Gravity and the Solar System
• How does this diagram illustrate the formation of the solar system?