An aircraft executes a horizontal loop of radius 1.00 km with a steady speed of 900km/h. Compare its centripetal acceleration with 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 ?

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

A puck of mass m is moving in a circle at constant speed on a frictionless table as shown in the figure . The puck is connected by a string to a suspended bob, also of mass m , which is at rest below the table. Half of the length of the string is above the tabletop and half below. What is the magnitude of the centripetal acceleration of the moving puck ? Let g be the acceleration due to gravity.

An aircraft executes a horizontal loop at a speed of 720 km h^(-1) , with its wings banked at 15^(@) What is the radiue of the loop ?

When the radius of earth is reduced by 1% without changing the mass, then the acceleration due to gravity will

Assertion :- In projectile motion a particle is projected at some angle from horizontal. At highest point of its path radius of curvature is least. At highest point of path normal acceleration of projectile is equal to acceleration due to gravity.

Taking the mass of the moon to be 7.3 xx 10^(22) kg and the radius to be 1740 km calculate the acceleration due to gravity 'g_m' on the surface of the moon. Compare it with the acceleration due to gravity 'g_e' on the earth.

A satellite of mass m is orbiting the earth (of radius R ) at a height h from its surface. The total energy of the satellite in terms of g_(0) , the value of acceleration due to gravity at the earth's surface,

A particle is performing circular motion of radius 1 m. Its speed is v=(2t^(2)) m//s . What will be magnitude of its acceleration at t=1s .