At what height above the ocean will the acceleration of gravity of the Earth have a...

At what height above the ocean will the acceleration of gravity of the Earth have a value of 9.3 m / s2

(a) At what height above the earth is the acceleration due to gravity 62% of its...

(a) At what height above the earth is the acceleration due to gravity 62% of its value at the surface? (b) What is the speed of a satellite orbiting at that height? I got 1210.49km for question a by using the formula, but it is wrong.

acceleration due to gravity at earths surface is 9.80m/s2 .what is the acceleration due to gravity...

acceleration due to gravity at earths surface is 9.80m/s2 .what is the acceleration due to gravity at a distance 5 times the radius of the earth from the center of the earth

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.

(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 acceleration of gravity on the moon is 1/6 of the value on earth. Suppose somebody...

The acceleration of gravity on the moon is 1/6 of the value on earth. Suppose somebody hit a golf ball with a speed of 25 m/s at an angle of 30° above the horizontal. How high did it rise vertically?

Objects near Earth fall due to gravity. The acceleration of an object due to gravity. The...

Objects near Earth fall due to gravity. The acceleration of an object due to gravity. The acceleration of an object due to gravity is then x" = g, where x represents the distance above the ground and g = (wave; about same) -9.8m/s(^2) a. Find the general solution to the equation b. Given the initial data x(0) = 0 and x'(0) = 1, find the particular solution c. Plot your solution over a meaningful range of time d. When is...

The International Space Station orbits at an average height of 300 km above sea level. (a)...

The International Space Station orbits at an average height of 300 km above sea level. (a) Determine the acceleration due to gravity at that height and find the orbital velocity and the period of the space station. (Assume the radius and mass of the Earth are 6.37 103 km and 5.97 1024 kg respectively.) orbital velocity m/s acceleration due to gravity m/s2 period s (b) The Hubble Space Telescope orbits at 580 km. What is the telescope's orbital velocity and...

A 1400 kg spacecraft is 3 Earth radii above the Earth’s surface. What is the acceleration...

A 1400 kg spacecraft is 3 Earth radii above the Earth’s surface. What is the acceleration due to gravity at this distance above the earth

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...

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 one hundred times smaller than the one at the surface of Earth? Express your result in terms of the radius of Earth RE. SHOW YOUR WORK. Formulas to use: W = mg F = GmM/r^2 F = ma