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Law of Universal Gravitation

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1 Law of Universal Gravitation

2 The Law of Universal Gravitation
every object in the universe attracts every other object in the universe with a force that has a magnitude which is directly proportional to the product of their masses and inversely proportional to the distance between their centers squared.

3 What does it all mean? G is the gravitational constant, 6.67 x Nm2/kg2 M1 is the mass of the first body in kg M2 is the mass of the second body in kg R is the distance from the center of M1 to the center of M2

4 Big G, little g??? G is the universal gravitational constant- same for any pairs of particles, anywhere in the universe Little g is acceleration due to earth’s gravity, measured at the surface of the earth F=ma=mg If you enter the values for the mass of earth and the avg radius of earth, we get the 9.8m/s2

5 Gravitational Force Always directed to center of object (usually earth) and is a vector Related to inverse square of distance from center of earth

6 Weight Weight is the gravitational force that the earth (or another planet) exerts on an object If it’s a force, what are the units? Is it vector or scalar? Which direction?

7 Weight as Force If F=ma and weight is the force exerted by earth’s gravity… On surface of the earth: Weight =F=ma=mg If you are not on surface of earth… Weight=G* Mem r2

8 Weight on other planets
If you’re not on earth, you can calculate weight on other planets by replacing Me with the mass of the other planet

9 Apparent Weight If you were standing on a scale in an elevator, as it accelerates up or down, the reading on the scale would change If you have any vertical acceleration, you need to add that F=ma to your sum of forces in the y direction So apparent weight: F=mg+ma (be careful of sign of a) In free fall, a=-g so your apparent weight will=0

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