A motorcycle starts from rest and accelerates along a straight line at `2.2(m)/(s^2)`. The speed of sound is `330(m)/(s)`. A siren at the starting point remains stationary. When the driver hears the frequency of the siren at `90%` of when motorcycle is stationary, the distance travelled by the motorcyclist is

A motor cycle starts from rest and accelerates along a straight path at 2m//s^(2) . At the starting point of the motor cycle there is a stationary electric siren. How far has the motor cycle gone when the driver hears the frequency of the siren at 94% of its value when the motor cycle was at rest ? (Speed of sound = 330ms^(-2))

A motor cycle starts from rest and accelerates along a straight path at 2m//s^(2) . At the starting point of the motor cycle there is a stationary electric siren. How far has the motor cycle gone when the driver hears the frequency of the siren at 94% of its value when the motor cycle was at rest ? (Speed of sound = 330ms^(-2))

A motor cycle starts from rest and accelerates along a straight path at 2m//s^(2) . At the starting point of the motor cycle there is a stationary electric siren. How far has the motor cycle gone when the driver hears the frequency of the siren at 94% of its value when the motor cycle was at rest ? (Speed of sound = 330ms^(-2))

A motor cycle starts from rest and accelerates along a straight path at 2m//s^(2) . At the starting point of the motor cycle there is a stationary electric siren. How far has the motor cycle gone when the driver hears the frequency of the siren at 94% of its value when the motor cycle was at rest ? (Speed of sound = 330ms^(-2))

A motor cycle starts from rest and accelerates along a straight path at 2m//s^(2) . At the starting point of the motor cycle there is a stationary electric siren. How far has the motor cycle gone when the driver hears the frequency of the siren at 94% of its value when the motor cycle was at rest ? (Speed of sound = 330ms^(-2))

A motor cycle starts from rest and accelerates along a straight path at 2 m//s^(2) . At the straight point of the motor cycle there is a stationary electric siren. How far has the motor cycle gone when the driver hears the frequency of the siren at 94% of its value when the motor cycle was al rest? (Speed of sound = 330 ms^(-1))

A motor cycle starts from rest and accelerates along a straight path at 2 m//s^(2) . At the straight point of the motor cycle there is a stationary electric siren. How far has the motor cycle gone when the driver hears the frequency of the siren at 94% of its value when the motor cycle was al rest? (Speed of sound = 330 ms^(-1))