A stone is dropped into a quiet lake and waves move in circles spreading out radially at the speed of `0.5m//s`. At the instant when the radius of the circular wave is `(4)/(pi)` m, how fast is the enclosed area (in`m^(2//s)`) increasing ?

A stone is dropped into a quiet lake and waves move in circles at the speed of 5 cm//s . At the instant when the radius of the circular wave is 8 cm , how fast is the enclosed area increasing?

A stone is dropped into a quiet lake and waves move in circles at the speed of 5 cm/s. At the instant when the radius of the circular wave is 8 cm, how fast is the enclosed area increasing ?

A motor car is travelling at 60m//s on a circular road of radius 1200m. It is increasing its speed at the rate of 4m//s^(2) . The acceleration of the car is:

Sound waves of wavelength lamda travelling in a medium with a speed of v m/s enter into another medium where its speed is 2v m/s. Wavelength of sound waves in the second medium is

A solid sphere of diameter 0.1 m and 5 kg is rolling down an inclined plane with a speed of 4 m/s. The total kinetic energy of the sphere is :

The speed of a particle moving in a circle slows down at a rate of 4 m//sec^(2) . At some instant the magnitude of the total acceleration is 5 m/sec^(2) and the particle's speed is 12 m/sec. The radius of circle will be :

The speed of a particle moving in a circle slows down at a rate of 3 m//sec^(2) . At some instant the magnitude of the total acceleration is 5 m/sec^(2) and the particle's speed is 12 m/sec. The radius of circle will be :

Figure shows the total acceleration and velocity of a particle moving clockwise in a circle of radius 2.5 m at a given instant of time. At this instant, Find: (i) the radial acceleration, (ii) the speed of the particle and (iii) its tangential acceleration.

A particle is travelling in a circular path of radius 4m . At a certain instant the particle is moving at 20m/s and its acceleration is at an angle of 37^(@) from the direction to the centre of the circle as seen from the particle (i) At what rate is the speed of the particle increasing? (ii) What is the magnitude of the acceleration?