Calculate the effective value of g, the acceleration of gravity (in meters/second^2), at 4800 km above...

Your acceleration due to gravity is g/ 2. How high are you above the Earth's surface?...

Your acceleration due to gravity is g/ 2. How high are you above the Earth's surface? h=______m

On the Earth surface, the gravitatioal acceleration g = 9.8 m/s2 . How many km above...

On the Earth surface, the gravitatioal acceleration g = 9.8 m/s2 . How many km above the Earth's surface will the gravitational acceration be 3.7 m/s2 ? The Earth's radius is 6400 km.

15) The Earth's surface gravity famously has a value of about g=9.8 m/s2. Use the Law...

15) The Earth's surface gravity famously has a value of about g=9.8 m/s2. Use the Law of Equilibrium to figure out the gravitational acceleration in low orbit, at an altitude of about 1700 km. The Earth's mass is about 6×1024 kg and its radius is about 6.4×106 meters. Answer: 16) Imagine a planet whose surface gravity is only a seventh. If its radius is 9.14×105 m, what is the planet's mass? Answer:

(A) Calculate the acceleration of gravity, gC, on Ceres Apply the kinematics displacement equation to the...

(A) Calculate the acceleration of gravity, gC, on Ceres Apply the kinematics displacement equation to the falling rock. (1) Δx = 1/2at2 + v0t Substitute Δx = -10.0 m, v0 = 0, a = -gC, and t = 8.06 s, and solve for the gravitational acceleration on Ceres, gC. -10.0 m = -1/2gC(8.06 s)2 → gC = 0.308 m/s2 (B) Find the mass of Ceres. Equate the weight of the rock on Ceres to the gravitational force acting on the...

The international space station is in a circular orbit 500 km above the Earth. A) Calculate...

The international space station is in a circular orbit 500 km above the Earth. A) Calculate the acceleration due to the Earth's gravity for this orbit B) Use this acceleratiom to calculate the speed of the space station

For a spherical celestial object of radius R, the acceleration due to gravity g at a...

For a spherical celestial object of radius R, the acceleration due to gravity g at a distance x from the center of the object is g = g0R2/x2, where g0 is the acceleration due to gravity at the object's surface and x > R. For the moon, take g0 = 1.63 m/s2 and R = 3200 km. If a rock is released from rest at a height of 5R above the lunar surface, with what speed does the rock impact...

A small moon has a radius of 758 km. The acceleration due to gravity at its...

A small moon has a radius of 758 km. The acceleration due to gravity at its surface is 1.65 m/s^2. (Assume the moon to be spherical). a) Calculate the escape velocity for a small spaceship trying to leave the moon. b) If it leaves the surface with a radial velocity of 1010 m/s, how far from the surface will it go? c) If the spaceship accidentally drops a crate of cargo from 183.9 km above the surface, with what speed...

At what distance above the surface of the earth is the acceleration due to the earth's...

At what distance above the surface of the earth is the acceleration due to the earth's gravity 0.825 m/s2 if the acceleration due to gravity at the surface has magnitude 9.80 m/s2?

The radius of the Earth rE is 6380km. What is the acceleration due to gravity at...

The radius of the Earth rE is 6380km. What is the acceleration due to gravity at a distance 4rE above the Earth's surface? What is the speed of a satellite in a circular orbit at the height 4rE above the Earth's surface? How much time (in seconds) does the satellite take to complete an orbit? Assume that the satellite orbits at constant speed.

Calculate, using Newton's law of gravity, the size of the force of attraction between the earth...

Calculate, using Newton's law of gravity, the size of the force of attraction between the earth and a mass of 2.0 kg on the earth. Data: Distance to the center of earth from the surface = 6370 km. Mass of earth = 5.98·1024kg. Gravitational constant G = 6.67·10-11 Nm2/kg2. Calculate, using Newton's law of gravity, the size of the force of attraction between the moon and a mass of 2.0 kg on the earth's surface nearest the moon. Data: Distance...