Gravitational pull on earth formula

    • [DOCX File]Mrs. Hall's Science Class BRMS

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      * Gravitational force between two objects depends on the masses of the objects and the distance between them. {formula on RT} Since distance is squared in the formula, distance has more effect on gravitational force than mass. Mass and force have a direct relationship: as mass increases, force of attraction between the objects increases.

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    • [DOCX File]Weebly

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      The planet has twice the gravitational pull as the Earth. Doubling the radius of a planet will mean you can jump four times higher as on the Earth., radius and mass are in units of Earth radius and mass. 11.183 km/s. Answer will vary, but the formula used to calculate the answer is . …

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    • [DOC File]TAP404-0: Gravitational potential energy and potential

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      The energy of an object raised away from the Earth’s center depends on three variables: 1. The mass of the object. 2. The gravitational pull of the Earth. 3. How high the object is above the surface of the Earth. Formula for determining Potential Energy due to Gravity: E g = mgh where:“E g ” is potential energy due to gravity in Joules ...

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    • [DOC File]Chapter 10

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      radius of the Earth = 6.4 ( 106 m. gravitational field strength close to the surface of the Earth is 9.8 N kg-1. 1) What is the gravitational potential energy of a 60 kg student on the surface of the Earth? What then, is the minimum energy that would be required to get this student completely out of the Earth’s gravitational field?

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    • [DOC File]Name

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      The larger the object is, the more gravity it has (The Sun has more gravitational pull than the Earth does). Distance is also a factor of gravity. No matter how much gravity an object has, if you aren’t close to it, it won’t pull you in. For example, a black hole is one pinpoint in space with sooooo much mass that its gravitational pull is ...

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    • [DOC File]Lunar Events

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      6. The value of gravitational pull on the moon is 1.6 m/s/s. What is the weight of a 75 kg. astronaut on the moon? Force (F) = ? Formula: F = mg. Mass (m) = 75 kg. Substitution: F = (75 kg)(1.6 m/s2) Gravity (g) = 1.6 m/s2. Answer: 120 N. 7. A space ship has a mass of 9000 kg. The space ship is launched from Earth and lands on a

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    • [DOCX File]Gravity Force Simulation Activity.docx

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      Part III: Gravitational Forc. e between the Earth and the Sun. a) It takes 365 days for the Earth to complete one revolution around the Sun. Find . three. different ways to change the . number of days. it takes for the Earth to complete one revolution around the Sun.

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    • [DOC File]EARTH SCIENCE REGENTS REVIEW

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      The moon’s gravitational pull is _____ that of the Earth. Pg80 . Para. 2- The elliptical path one body follows around another body due to the influence of gravity is called? _____ Pg80 . Para. 1- Centripetal force is the gravitational pull between the _____ and the _____. Pg83 . Para. 2- A free fall is a fall due entirely to _____.

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    • The gravitational pull of Earth on the surface of Earth is ...

      Jan 10, 2013 · The gravitational force is too weak to sustain an atmosphere. Gravitational pull of earth = gravitational pull of moon = dE = 9 dm and dE + dm = 3.84 × 108 m. 10 dm = 3.84 × 108. dm = 3.84 × 107. dE = 3.356 × 108. Height above the earth = (3.356 × 108) – …

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