If a speed man is rotated at the end of a long beam of length 5m and the acceleration of 9g, then the number of revolution performed will be
(`g=10 m//s^(2))`

If a space man is rotated at the end of a long beam of length 5 m and the acceleration of 9 g, then the number of revolution performed will be

A spaceman in training is rotated in a seat at the end of a horizontal arm of length 5 m. If he can with stand acceleration upto 9 g, then what is the maximum number of revolution per second permissible? (Take, g = 10ms^(-2) )

A spaceman in training is rotated in a seat at the end of a horizontal arm of length 5 m. If he can with stand acceleration upto 9 g, then what is the maximum number of revolution per second permissible? (Take, g = 10ms^(-2) )

A spaceman in training is rotated in a seat at the end of a horizontal arm of length 5 m. If he can with stand acceleration upto 9 g, then what is the maximum number of revolution per second permissible? (Take, g = 10ms^(-2) )

An astronaout is rotating in a rotor of radius 4m. If he can withstand upto acc. Of 10g, then what is the maximum number of permissible revolutions? (g=10m//s^(2))

A man of mass 65kg is standing stationary with respect to a conveyor belt which is accelerating with 1m//s^(2) . if mu_(s) is 0.2 the net force on the man and the maximum acceleration of the belt so that the man is stationary relative to the belt are (g =10 m//s^(2)) .

A simple pendulum of length 1 m the bob performs circular motion in horizontal plane if its string making an angle 60 ^(@) with the verticle , then the period of rotation of the bob will be (g=10 m//s^(2)

A simple pendulum of length 1 m the bob performs circular motion in horizontal plane if its string making an angle 60 ^(@) with the verticle , then the period of rotation of the bob will be (g=10 m//s^(2)

A stone of mass 1 kg tied to a string 4 m long and is rotated at constant speed of 40 m/s a vertical circle. The ratio of the tension at the top and the bottom, is (g=10" m"//"s"^(2))

A stone of mass 1 kg tied to a string 4 m long and is rotated at constant speed of 40 m/s a vertical circle. The ratio of the tension at the top and the bottom, is (g=10" m"//"s"^(2))