0.45 Hz end Question 4 (2.5 points) that the acceleration due to gravity of Mars is...
On Mars, the acceleration due to gravity is 3.71 m/s2. How far would a rock fall in [Number 6.01] s if you dropped it on Mars?
At the surface of the earth the acceleration due to gravity is 9.8 m/s2. How far above the surface of the earth would the acceleration due to gravity be 10% smaller? In other words, at what height is the acceleration due to gravity 8.82 m/s2?
For flow in a pipe of uniform diameter D the loss in hydraulic head, h, is given by: L u2 D 2 where L is the length of the pipe, u is the average flow velocity, g is the acceleration due to gravity and f is a constant. During reconfiguration of a plant it is estimated that the length of the pipe could be reduced by 15% and its diameter increased by 6%. Calculate the maximum percentage by which The...
What is the acceleration due to gravity on the surface of Mars (diameter of Mars is 6794 km; mass of Mars is 6.42 kg)? How far above the surface of Mars must one be for the acceleration due to gravity to be g/4? 2) 1000 671 e。 r= 339 200
QUESTION 2 On Mars, the acceleration due to gravity is 3,71 m/s2 What fraction of your Earth wesight would you weigh on Mars? Use gEarth-9.80 mis2, and to the nearest 0.01? QUESTION 3 A passenger jet with a mass of 440,000 kg is flying out of Honolulu, HiI with constant velocity of 270 m/s to the northeast What is the net force on the airplane? 118,800,000 kg m/s to the northeast O I wonder if the TSA would allow me...
On Mars, the acceleration due to gravity is approximately 37.83% of Earth's gravity. An astronaut whose weight on Earth is 672.38 N travels to the Martian surface. His mass, as measured on Mars, will be? Select one: O A. 36.40 kg OB. 179.15 kg O C. 68.54 kg O D. 252.36 kg
4. (20 points) A space station is rotating to simulate gravity as the figure below indicates. An astronaut standing on the rim (ro = 2,150 m) of the outer ring experiences a simulated acceleration due to gravity on earth (9.80 m/s2). a) Calculate the period of rotation. b) What should be the radius ry of the inner ring so that it simulates the acceleration due to gravity (3.72 m/s2) on the surface of Mars?
A student traveled to Mars, and wanted to find the acceleration due to gravity there. She set up an Atwood's machine to do this and found the local acceleration due to gravity to be 4.1 m/s^2, and she had a nice Gaussian distribution with a standard deviation of the mean (SDOM) of 0.1 m/s^2. What is the t-score?
On Mars, where the acceleration due to gravity is 3.8 m/s2, a 500 gram ball is thrown from a cliff that is 30 m above the ground at a speed of 22 m/s. The ball lands 45 m away from the base of the cliff. What is the speed of the ball just before it hits the ground?
(20 points) A space station is rotating to simulate gravity as the figure below indicates. An astronaut standing on the rim (ro = 2,150 m) of the outer ring experiences a simulated acceleration due to gravity on earth (9.80 m/s2). a) Calculate the period of rotation. b) What should be the radius ry of the inner ring so that it simulates the acceleration due to gravity (3.72 m/s2) on the surface of Mars? I