Chapter 05 - Video 13: Kepler's Third Law, Example 2

from Chris Conley / Added 11 years ago

We revisit an earlier problem involving a geosynchronous satellite. We solve it this time using Kepler's Third Law of Planetary Motion.

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Chapter 05 - Video 12: Kepler's Third Law, Example 1

from Chris Conley / Added 11 years ago

We use Kepler's Third Law of Planetary Motion to calculate the period of Jupiter's orbit.

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Chapter 05 - Video 11: Kepler's Laws of Planetary Motion

from Chris Conley / Added 11 years ago

We Introduce Kepler's three Laws of Planetary Motion.

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Chapter 05 - Video 10: Universal Gravitation, Review 2

from Chris Conley / Added 11 years ago

Here we use Newton's Law of Universal Gravitation to find the distance at which a geosynchronous satellite must orbit above the Earth.

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Chapter 05 - Video 09: Universal Gravitation, Review 1

from Chris Conley / Added 11 years ago

We find the centripetal acceleration of an object using Newton's Law of Universal Gravitation.

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Chapter 05 - Video 08: Universal Gravitation, Example 3

from Chris Conley / Added 11 years ago

Here we look to find the acceleration due to gravity somewhere that is not the surface of the Earth. We are not given the mass of an object in this example.

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Chapter 05 - Video 07: Universal Gravitation, Example 2

from Chris Conley / Added 11 years ago

We use Newton's Law of Universal Gravitation at a point beyond the surface of the Earth.

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Chapter 05 - Video 06: Universal Gravitation

from Chris Conley / Added 11 years ago

We introduce Newton's Law of Universal Gravitation in order to find the acceleration and force of gravity when not necessarily on the Earth's surface.

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Chapter 05 - Video 05: Circular Motion, Example 5

from Chris Conley / Added 11 years ago

Here we look at the more complicated problem of a car going around a banked (inclined) curve. We see how both the frictional force and normal force are now helping turn the car.

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Chapter 05 - Video 04: Circular Motion, Example 4

from Chris Conley / Added 11 years ago

In this example we consider the centripetal force that allows cars to drive around a flat or level curve.

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Chapter 05 - Video 03: Circular Motion, Example 3

from Chris Conley / Added 11 years ago

Here we look at what happens to the normal force acting on a car as it drives over a round hill.

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Chapter 05 - Video 02: Circular Motion, Example 2

from Chris Conley / Added 11 years ago

Again we are swinging an object at the end of a string. This time, however, the object is moving though a vertical arc. This is the classic example of swinging a bucket full of water around in a circle.

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