Determine the speed with which the earth would have to rotate on its axis so that a person on the equator would weigh `3//5` the as much as at present. Take the equatorial radius as 6400 km.

Determine the speed with which the Earth would have to rotate on is axis. So that a person on the equator would weigh (3^(th))/(5) as much as at present. Take the equatorial radius as 6400 km. g=9.8m//s^(2)

Determine the speed with which the earth have to roate on its axis so that a person on the equator would weigh 2//5th as much as at present. Take the equatorial radius as 6400 km .

Determine the speed with which the earth would have to rotate on its axis , so that a person on the equator would weigh (3)/(5) as much as at present. Take R = 6400 km .

Determine the speed with which the earth would have to rotate on its axis , so that a person on the equator would weigh (3)/(5) th as much as the person. Take R = 6400 km .

Determine the speed with which the earth would have to roate on its axis , so that a person on the equator would weigh (3)/(5) th as nuch as at person. Take R = 6400 km .

If the earth has no rotational motion, the weight of a person on the equation is W. Detrmine the speed with which the earth would have to rotate about its axis so that the person at the equator will weight (3)/(4) W. Radius of the earth is 6400 km and g = 10 m//s^(2) .

If the earth has no rotational motion, the weight of a person on the equation is W. Detrmine the speed with which the earth would have to rotate about its axis so that the person at the equator will weight (3)/(4) W. Radius of the earth is 6400 km and g = 10 m//s^(2) .