the acceleration due to gravity is a higher on planet jafor than on earth. the mass...

The planet Jupiter is about 300 times more massive than the Earth. The acceleration due to...

The planet Jupiter is about 300 times more massive than the Earth. The acceleration due to gravity on Jupiter is about 3 times more than on the Earth. Explain why this occurs.

An astronaut on a distant planet wants to measure the acceleration due to gravity there by...

An astronaut on a distant planet wants to measure the acceleration due to gravity there by timing pulses (waves) travelling along a wire fixed at each end and with a mass hanging from it (i.e. hanging mass is causing a tension in the wire). She has measured the length and mass of the wire to be 1.60 metres and 3.55 grams. The mass hanging from the wire is 2.9 kgs. If the pulse takes 35.7 milliseconds to travel the full...

A hypothetical planet has twice the radius of earth but the same mass. Find the acceleration...

A hypothetical planet has twice the radius of earth but the same mass. Find the acceleration of gravity on the surface of eh planet.

On a strange planet where the acceleration due to gravity is 6.7 m/s2 , a rock...

On a strange planet where the acceleration due to gravity is 6.7 m/s2 , a rock is thrown downward at 3.00 m/s into a dark well and the time until the sound of a splash is heard is measured. Using 250.0 m/s for the velocity of sound on this planet, determine the actual distance to the surface of the liquid at the bottom of the well (not water!). If the sound is heard 5.000 seconds later.

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

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...

An astronaut lands on Planet X and wants to know the acceleration due to gravity. He...

An astronaut lands on Planet X and wants to know the acceleration due to gravity. He sets up a simple pendulum that has a 2 kg bob on a 0.540 m long string. He measures that it takes 22 seconds to complete 10 full oscillations. What is the acceleration of gravity on Planet X?

A small dog has a weight of 49 N on earth. Given that the acceleration due...

A small dog has a weight of 49 N on earth. Given that the acceleration due to gravity on earth is 9.8 m/s2 and the accleration due to gravity on the moon is 1.6 m/s2. The mass of the dog on the moon is (choose one: 245kg, 5kg, 49kg or 1kg) and the weight of the dog on the moon is (choose one: 245N, 5N, 49N or 8N)

(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...

a) On a planet where the acceleration due to gravity is given by a(t) = -8m/s^2,...

a) On a planet where the acceleration due to gravity is given by a(t) = -8m/s^2, derive a formula for s(t) , the height of an object above the surface of the planet, where the objects initial height is s subzero, and objects initial velocity is v subzero. b) If an object is launched from the ground on this planet with an initial velocity of 500 m/s, what is the total distance the object will travel?