What is the (magnitude of the) centripetal acceleration (as a multiple of g=9.8 m/s2) towards the Earth's axis of a person standing on the surface of the Earth at a latitude of 62.2∘? Recall that latitude is measured from the equator, and assume the Earth's radius is 6,370 km.
kindly give rating
What is the (magnitude of the) centripetal acceleration (as a multiple of g=9.8 m/s2) towards the...
What is the (magnitude of the) centripetal acceleration (as a multiple of g=9.8 m/s2g=9.8 m/s2) towards the Earth's axis of a person standing on the surface of the Earth at a latitude of 78.9∘78.9∘? Recall that latitude is measured from the equator, and assume the Earth's radius is 6,370 km6,370 km.
a. Compute the centripetal acceleration of a point on the surface of the Earth at the equator caused by the rotation of the Earth about its axis. Enter the magnitude. The radius of the Earth is 6,371 km. The period is one day. m/s2 b. Suppose the Earth were spinning much faster. Find the period that results in the centipetal acceleration being equal to 9.8 m/s?. minutes When the centripetal acceleration equals the acceleration due to gravity, objects are in...
We found the centripetal acceleration of the Earth as it revolves around the Sun. Compute the centripetal acceleration of a point on the surface of the Earth at the equator caused by the rotation of the Earth about its axis. (Enter the magnitude. The radius of the Earth is 6,371 km.) m/s2
A rocket travels horizontally, close to the earth. The centripetal acceleration of the rocket is the earth's gravity (9.8 m/s2). If the earth's radius is 6.3 x 106 m and we neglect air resistance, how fast must the rocket be going to keep a constant height above the earth's surface?
(25 pts) Make a plot of the gravitational magnitude acceleration versus radius for a satellite in Earth orbit. The x-axis should be the orbital radius in units of Earth radii, from Earth's surface, 6,378 km, to 75,000 km. The y-axis should be the computed acceleration in units of m/s2. Be sure to label your plot.
The earth (of radius of 6371km) rotates on itself at a rate of one revolution every 24 hours and is titled by an angle of 23.5°. Let's assume that the earth is a perfect sphere, which allows us to consider a uniform circular motion 23.5 R equator Figure 1: Earth rotation Everybody on earth share the same time of rotation, but based on their location on the earth, they wil have different velocities. A person located in Hawaii, at an...
+ -/1 points 0/1 Submissions Used What is the centripetal acceleration of the Earth for a person standing 5600000 m from the axis? The period of rotation of the earth is one day or 86400 seconds centripetal acceleration Does your answer make sense from what you know about standing on the Earth? Should it be a large acceleration or a small acceleration? m/sA2
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?
Calculate the magnitude of your centripetal acceleration due to Earth’s rotation on its axis (standing on the ground here in LA). Why doesn’t this rotation send you flying off the surface of the Earth?
The earth has a radius of 6380 km and turns around once on its axis in 24 h. Part A What is the radial acceleration of an object at the earth's equator? Give your answer in m/s2. Part B What is the radial acceleration of an object at the earth's equator? Give your answer as a fraction of g. Part C If arad at the equator is greater than g , objects would fly off the earth's surface and into...