In the figure shown, an observer `O_1` floats (static) on water surface with ears in air while another observer `O_2` is moving upwards with constant velocity `V_1=(V)/(5)` in water. The source moves down with constant velocity `V_S=(V)/(5)` and emits sound of freqeuncy `f`. The velocity of sound in air is `V` and that in water is `4V`. For the situation shown in figure.

In the block moves up with constant velocity v m/s. Find F

A particle mass parallel to x-axis with constant velocity v as shown in the figure. The angular velocity of the particle about the origin O

A body of mass m moving with a constant velocity v hits another body of the same mass moving with the same velocity v but in the opposite direction and sticks to it. The velocity of the compound body after collision is

A ship X moving due North with speed v observes that another ship Y is moving due West with speed v. The actual velocity of Y is

When the observer moves towards the stationary source with velocity, v_1 , the apparent frequency of emitted note is f_1 . When the observer moves away from the source with velocity v_1 , the apparent frequency is f_2 . If v is the velocity of sound in air and f_1/f_2 = 2,then v/v_1 = ?

A turck is moving on the ground with a velocity v=12m//s and a box is moving on the truck with respect to it with a velocity u=5m//s as shown in the figure. What is the velocity of the box with respect to the ground?

The source (S) of sound is moving constant velocity v_(0) as shown in diagram. An observer O listens to the sound emmited by the source. The observed frequency of the sound

In the figure shown, a source of sound of frequency 510 Hz moves with constant velocity v_S=20(m)/(s) in the direction shown. The wind is blowing at a constant velocity v_W=20(m)/(s) towards an observer who is at rest at point B. corresponding to the sound emitted by the source at initial position A, the frequency detected by the observer is equal to (speed of sound relative to air is 330(m)/(s) )

In the figure shown, a source of sound of frequency 510 Hz moves with constant velocity v_S=20(m)/(s) in the direction shown. The wind is blowing at a constant velocity v_W=20(m)/(s) towards an observer who is at rest at point B. corresponding to the sound emitted by the source at initial position A, the frequency detected by the observer is equal to (speed of sound relative to air is 330(m)/(s) )

A particle is moving with constant speed v in xy plane as shown in figure. The magnitude of its angular velocity about point O is