Physics, 17.04.2020 21:17, jakhunter354
Perhaps the most-common gravitational calculation is to determine the "weight" of an object of mass mo sitting on the surface of the earth (i. e., the magnitude of the gravitational attraction between the earth and the object). According to Newton's law of universal gravitation, the gravitational force on the object is Fg=G(memor2e)=(Gmer2e)mo , where me is the mass of the earth and re is the distance between the object and the center of the earth (i. e., re = radius of the earth = 6.38×10^3km).
Required:
What is the value of the composite constant (Gme/r^2e), to be multiplied by the mass of the object mo in the equation above? Express your answer numerically in meters per second per second.
Answers: 2
Other questions on the subject: Physics
Physics, 22.06.2019 11:30, slim2077
Two 1.20-m nonconducting wires meet at a right angle. one segment carries + 2.50 µc of charge distributed uniformly along its length, and the other carries - 2.50 µc distributed uniformly along it, as shown in fig. 21.50. ( a. find the magnitude and direction of the electric field these wires produce at point p, which is 60.0 cm from each wire. ( b. if an electron is released at p, what are the magnitude and direction of the net force that these wires exert on it?
Answers: 3
Physics, 23.06.2019 02:00, temperent6049
How does the strength of the electrostatic force between an electron and a proton compare to the strength of the gravitational force between them?
Answers: 1
Do you know the correct answer?
Perhaps the most-common gravitational calculation is to determine the "weight" of an object of mass...
Questions in other subjects:
French, 27.06.2019 15:10
Mathematics, 27.06.2019 15:10
Chemistry, 27.06.2019 15:10
English, 27.06.2019 15:10
Physics, 27.06.2019 15:10
