Homework help !!! Numbers 1-3 QUESTION 1 What is the gravitational force on a 87 kilogram...
What is the gravitational force on a 52 kilogram person standing on the Earth, due to the Earth's gravity? The mass of the Earth is 5.97x 104 kilograms and the radius of the Earth is 6.38 x 10 meters. Round your answer to the nearest integer. A. What is the gravitational force on a 71 kilogram person standing on the Earth, due to Moon's gravity? The mass of the Moon is 7.34 x 102 kilograms and the distance from the...
Weight on Earth (lbs.) : 600N or 132lb Calculate the gravitational force you feel at the following places. Show your work. (a)500 km above the surface of Europa. (b)At the surface of Europa. (c)Inside the tunnel, half-way through the ocean layer. (d)At the bottom of the tunnel. (e)Evaluate the prediction you made earlier. Did the gravitational force change as you expected? Explain. You get back in your space shuttle to continue on your trip. Your next stop is Jupiter you've...
QUESTION 16 The Moon which has mass of about 7.35 1022 kilograms, and it orbits the Earth with an average orbital distance of 384,400 kilometers. Calculate the following for the Moon the magnitude of the average gravitational force exerted by the Earth on the Moon: A. Newtons (use scientific notation and round the coefficient to two decimals) the magnitude of the acceleration due to Earth's gravity at Moon's orbit B. m/s (use scientific notation and round the coefficient to two...
Problem: Write a program to calculate the force of gravitational attraction between two objects of known mass at a known distance. Use the formula developed by Isaac Newton known as Law of Universal Gravitation. F G*m *m2/d2 Where F (Force of gravity) is expressed in Newtons (N), mi and m2 (masses of the objects) are expressed in kilograms (kgs) and d (distance from the center of one object to the center of the other) is expressed in meters (m) and...
QUESTION 17 The International Space Station which presently has mass of about 420,000 kilograms, maintains an orbit with an altitude of between 330 and 435 kilometers (205 and 270 miles respectively) above the Earth surface by means of re-boost maneuvers using the engines of the Zvezda module or visiting spacecraft to compensate for 2 km/month orbital decay due to the atmospheric drag. Calculate the following for the low orbit of the ISS (330 kilometers above the Earth surface), assuming that...
please help me answer this question PHY Homework. • Equations are in a separate document entitled "Equations for Rotational Dynamics Assignment" • Moments of inertia formulas are provided on the last page of this document • Show all of your work when solving equations. It is not sufficient to merely have a correct numerical answer. You need to have used legitimate equations and algebra. You also need to have correctly used the data. • Units must be specified for any...
Can someone help me with this question and show all work 1) Planet Velocities and Energy (33 pts) We talked about how planet formation involves the collisions of bodies (planetesimals, embryos) leading to the growth (and heating) of a planet. Let's think about the velocities and energies involved here. a) The speed of a body in its orbit around the Sun is given by the equation: Here Vis the speed of the body in m/s, G is the gravitational constant,...