Presentation is loading. Please wait.

Presentation is loading. Please wait.

Gravitational Potential Energy When we are close to the surface of the Earth we use the constant value of g. If we are at some altitude above the surface.

Published byBertina Roberts Modified over 8 years ago

Similar presentations

Presentation on theme: "Gravitational Potential Energy When we are close to the surface of the Earth we use the constant value of g. If we are at some altitude above the surface."— Presentation transcript:

1 Gravitational Potential Energy When we are close to the surface of the Earth we use the constant value of g. If we are at some altitude above the surface of the Earth we must use the radially dependent form of the gravitational acceleration. Assumes constant g! 0 0 We will define U i = 0 when r i = For more than two masses: Only valid for r > R E !

2 Energy Considerations for Planetary Motion This is the total energy of an object orbiting a larger stationary mass. This is a reasonable assumption if m << M. For circular orbits, the speed of the small mass is constant. For elliptical orbits the speed of the small mass is not constant! For a circular orbit we can determine v in the following way: 1 2 What happens as the planet moves from 1 to 2? What happens as the planet moves from 2 to 1? The distance from the sun decreases and hence the potential energy decreases, therefore the kinetic energy and hence the speed must increase. The distance from the sun increases and hence the potential energy increases, therefore the kinetic energy and hence the speed must decrease. We can now rewrite the energy:

3 Escape Speed The term escape speed or escape velocity if often used when discussing the launching of a rocket into space. What is escape speed? Escape speed is the minimum initial speed required for an object to approach an infinite separation from the Earth. There is no propulsion system on this object. 0

Download ppt "Gravitational Potential Energy When we are close to the surface of the Earth we use the constant value of g. If we are at some altitude above the surface."

Similar presentations

14 The Law of Gravity.

14 The Law of Gravity.
PHYS16 – Lecture 29 Ch. 13 Gravitation.

PHYS16 – Lecture 29 Ch. 13 Gravitation.
Escape Speed Escape speed: The minimum speed required for a projectile to escape the gravitational effects of an object. For the purist: The escape speed.

Escape Speed Escape speed: The minimum speed required for a projectile to escape the gravitational effects of an object. For the purist: The escape speed.
Gravitational Potential Energy When we are close to the surface of the Earth we use the constant value of g. If we are at some altitude above the surface.

Gravitational Potential Energy When we are close to the surface of the Earth we use the constant value of g. If we are at some altitude above the surface.
PHYS16 – Lecture 27 Gravitation November 10, 2010.

PHYS16 – Lecture 27 Gravitation November 10, 2010.
Rotational Motion and The Law of Gravity

Rotational Motion and The Law of Gravity
D. Roberts PHYS 121 University of Maryland Physic² 121: Phundament°ls of Phy²ics I November 6, 2006.

D. Roberts PHYS 121 University of Maryland Physic² 121: Phundament°ls of Phy²ics I November 6, 2006.
Physics 151: Lecture 28 Today’s Agenda

Physics 151: Lecture 28 Today’s Agenda
1© Manhattan Press (H.K.) Ltd. 6.5 Satellite system of the earth Orbital motion of satellite Orbital motion of satellite Synchronous satellite and parking.

1© Manhattan Press (H.K.) Ltd. 6.5 Satellite system of the earth Orbital motion of satellite Orbital motion of satellite Synchronous satellite and parking.
Gravitational Energy. Gravitational Work  Gravity on the surface of the Earth is a local consequence of universal gravitation.  How much work can an.

Gravitational Energy. Gravitational Work  Gravity on the surface of the Earth is a local consequence of universal gravitation.  How much work can an.
Motion, Forces and Energy Gravitation Part 2 Initially we assumed that the gravitational force on a body is constant. But now we know that the acceleration.

Motion, Forces and Energy Gravitation Part 2 Initially we assumed that the gravitational force on a body is constant. But now we know that the acceleration.
CH 12: Gravitation. We have used the gravitational acceleration of an object to determine the weight of that object relative to the Earth. Where does.

CH 12: Gravitation. We have used the gravitational acceleration of an object to determine the weight of that object relative to the Earth. Where does.
Gravitational Potential energy Mr. Burns

Gravitational Potential energy Mr. Burns
3. The solar system is held together by gravity A gravitational field is a field surrounding a massive object, within which any other mass will experience.

3. The solar system is held together by gravity A gravitational field is a field surrounding a massive object, within which any other mass will experience.
Satellites What keeps them in orbit?. Satellites A satellite is any projectile given a large enough velocity so its path follows the curvature of the.

Satellites What keeps them in orbit?. Satellites A satellite is any projectile given a large enough velocity so its path follows the curvature of the.
Universal Gravitation

Universal Gravitation
Physics I Honors 1 Specific Forces Fundamental Forces Universal Gravitation.

Physics I Honors 1 Specific Forces Fundamental Forces Universal Gravitation.
-Energy Considerations in Satellite and Planetary Motion -Escape Velocity -Black Holes AP Physics C Mrs. Coyle.

-Energy Considerations in Satellite and Planetary Motion -Escape Velocity -Black Holes AP Physics C Mrs. Coyle.
What keeps them in orbit?

What keeps them in orbit?
Kepler’s first law of planetary motion says that the paths of the planets are A. Parabolas B. Hyperbolas C. Ellipses D. Circles Ans: C.

Kepler’s first law of planetary motion says that the paths of the planets are A. Parabolas B. Hyperbolas C. Ellipses D. Circles Ans: C.

Similar presentations

Ads by Google