Gravitational pull formula
[DOC File]Kinetic, potential and Mechanical Energy
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(The gravitational field strength is not constant – the value of g changes.) We therefore need another way of calculating GPE changes in non-uniform fields. The full treatment of how we arrive at this formula requires off-syllabus calculus that would actually be accessible to more able students.
The gravitational pull of Earth on the surface of Earth is ...
Formula: F = mg. Mass (m) = 45 kg Substitution: F = (45 kg)(9.8 m/s2) Gravity (g) = 9.8 m/s2 Answer: 441 N. 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.
[DOC File]TAP404-0: Gravitational potential energy and potential
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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 . …
[DOC File]Oswego Community Unit School District 308
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Not if the object is traveling at the “escape speed” – the speed at which an object must be traveling to get away from an object’s gravitational pull. The formula for escape speed is Where G is 6.673 × 10-11 N·m2/kg2 and M and R are the mass and radius (respectively) of the …
[DOC File]Name
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Formula Plug-in numbers Solve and Units The gravitational force that Earth exerts on the moon equals 2.03x1020 N The moon’s. mass equals 7.35x1022 kg What is the acceleration of the moon due to Earth’s gravitational pull? Formula Plug-in numbers Solve and Units
[DOC File]Lunar Events
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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 ...
[DOC File]La Salle University
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Kinetic Potential Mechanical Formula . Units used. Conversions Km/h to m/s g to kg cm to m Constant : gravitational pull: Relationship between kinetic and potential energy. Sample kinetic energy questions. A marble weighing 4.0 kg, travels at a speed of 1.9 m/s. What is its kinetic energy?
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