An aircraft executes a horizontal loop of radius 1 km with a steady speed of 900`km///h`. Ratio of its centripetal acceleration to acceleration due to gravity is

An aircraft executes a horizontal loop of radius 1 km with a steady speed of 900 km h^(-1) . Compare its centripetal acceleration with the acceleration due to gravity.

To stimulate the acceleration of large rockets astronauts are spun at the end of a long rotating beam of radius 9.8m. Angular velocity, required to generate a centripetal acceleration 8 times the acceleration due to gravity, is.

To simulate the acceleration of large rockets , the astronauts are spun at the end of long rotating beam of radius 9.8 m. What will be angular velocity required for generating centripetal acceleration 8 times the acceleration due to gravity ?

An aircraft executes a horizontal loop at a speed of 720 km/h with its wings banked at 15^@ . What is the radius of the loop.

The angular speed of a particle, moving along a circle of radius 20cm, increases from 2 rad/s to 40 rad/s in 19 s. The ratio of its centripetal acceleration to tangential acceleration at the end of 19 secs

Starting from the centre of the earth having radius R, the variation of g (acceleration due to gravity) is shown by

An aircraft executes a horizontal loop with a speed of 150 m/s with its, wings banked at an angle of 12^(@) . The radius of the loop is (g=10m//s^(2))

The mass of a planet is (1//10)^("th") that of earth and its diameter is half that of earth the acceleration due to gravity is

(a) Assuming the earth to be a sphere of uniform density, calculate the value of acceleration due to gravity at a point, 1600 km above the earth, (b) Also find the rate of variation of acceleration due to gravity above the earth's surface. Radius of earth =6400 km, g =9.8 m//s^(2) .

A body crosses the topmost point of a vertical circle with a critical speed. Its centripetal acceleration, when the string is horizontal will be