A heavy ball of mass M is suspended from the ceiling of a car by a light string of mass m(mltltM). When the car is at rest, the speed of transverse waves in the string is `60,ms^(-1)`. The value of a, in terms of gravitational acceleration g, is closest to :

A heavy ball of mass M is suspended from the ceiling of a car by a light string of mass m where m less than M. When the car is at rest, the speed of transverse waves in the string is 60,ms^(-1) . The value of a, in terms of gravitational acceleration g, is closest to :

A heavy ball is mass M is suspended from the ceiling of a car by a light string of mass m(m lt lt M) . When the car is at rest, the speed of transverse waves in the string is 60ms^(-1) . When the car has acceleration a, the wave-speed increases to 60.5ms^(-1) . The value of a, in terms of gravitational acceleration g, is closest to:

A heavy ball is mass M is suspended from the ceiling of a car by a light string of mass m(m lt lt M) . When the car is at rest, the speed of transverse waves in the string is 60ms^(-1) . When the car has acceleration a, the wave-speed increases to 60.5ms^(-1) . The value of a, in terms of gravitational acceleration g, is closest to:

A heavy ball is mass M is suspended from the ceiling of a car by a light string of mass m(m lt lt M) . When the car is at rest, the speed of transverse waves in the string is 60ms^(-1) . When the car has acceleration a, the wave-speed increases to 60.5ms^(-1) . The value of a, in terms of gravitational acceleration g, is closest to:

A heavy ball of mass M is suspended from the ceiling of a car by a light string of mass m (m< < M) . When the car is at rest, the speed of transverse waves in the string is 60 ms^(-1) . When the car has acceleration a, the wave-speed increases to 60.5 ms^(-1) . The value of a, in terms of gravitational acceleration g, is closest to

A solid ball is suspended from the ceiling of a motor car through a light string. A transverse pulse travels at the speed 60 cm^(-1) . The acceleration of the car is nearly (g=10 ms^(-2))

A heavy ball is suspended from the ceiling of a motor car through a light string. A transverse pulse travels at a speed of 60 cm s^-1 on the string when the car is at rest and 62 cm s^-1 when the car accelerates on a horizontal road. Find the acceleration of the car. Take g = 10 ms^-2

A heavy ball is suspended from the ceiling of a motor car through a light string. A transverse pulse travels at a speed of 60 cm s^-1 on the string when the car is at rest and 62 cm s^-1 when the car accelerates on a horizontal road. Find the acceleration of the car. Take g = 10 ms^-2

A heavy ball is suspended from the ceiling of a motor car through a light string. A transverse pulse travels at a speed of 60 cm s^-1 on the string when the car is at rest and 62 cm s^-1 when the car accelerates on a horizontal road. Find the acceleration of the car. Take g = 10 ms^-2