The reading of a spring balance correspo...

The reading of a spring balance corresponds to 100 N while situated at the north pole and a body is kept on it. The weight record on the same scale if it is shifted to the equator, is (take, `g = 19 " ms"^(2-)` and radius of the earth, `R = 6.4 xx 10^(6)` m)

Similar Questions

Explore conceptually related problems

The reading of a spring balance corresponds to 100 N while situated at the North pole and a body is kept on it. The weight recorded on the same scale if it is shifted to the equator (take, g=10m//s^(2) and radius of the Earth R=6.4xx10^(6)m ) is:

A body weights 98 N on a spring balance at the north pole. What will be its weight recorded on the same scale if it is shifted to te equator? Use g= GM/R^2=9.8m/s^2 and the radius of the earth R=6400 km.

A body weighs 49 N on a spring balance at the north pole. What will be its weight recorded on the same weighing machine, if it is shifted to the equator ? (Use g =(GM)/R^2=9.8 ms^(-2) and radius of earth, R = 6400 km.]

Find the mass of earth (Given the radius of earth R= 6.4 xx 10^6 m) .

If weight of an object at pole is 196 N then weight at equator is [ g = 10 m/s^2 , radius of earth = 6400 Km]

What is the value of g at a height 8848 m above sea level. Given g on the surface of the earth is 9.8 ms^(-2) . Mean radius of the earth = 6.37 xx 10^(6) m .

Suppose the earth increases it speed of rotation. At what new time period will the weight of a body on the equator becomes zero ? (Take, g = 10 ms^(-2) and radius of earth R = 6400 km)

The reading of a spring balance corresponds to 100 N while situated at the north pole and a body is kept on it. The weight record on the same scale if it is shifted to the equator, is (take, `g = 19 " ms"^(2-)` and radius of the earth, `R = 6.4 xx 10^(6)` m)

Similar Questions

Recommended Questions