A man standing on a inclined plain observes rain is falling vertically. When he starts moving down the inclined plain with velocity `v=6m//s` observes rain hitting him horizontally.
The velocity of rain with respect to the man when he is moving down is

A man standing on a inclined plain observes rain is falling verticaly. When he starts moving down the inclined plain with velocity v=6m//s observes rain hitting him horizontally. The actual velocity of rain is

Rain is falling vertically downward with velocity 4m//s. A man is moving horizontally with velocity 3 m//s , the velocity of rain with respect to man is

A man running at a speed of 5 km/h finds that the rain is falling vertically. When the stops running, the finds that the rain is falling at an angle of 60^(@) with the horizontal. The velocity of rain with respect to running man is

The rain is falling vertically downward with velocity 6m//s and a man is moving horizontally with velocity 8m//s . Find the velocity of rain with respect to the man.

A man moving with a speed v down the inclined plane meets the rain horizontally with same speed. The actual velocity of rain is?

A stationary man observes that the rain is falling vertically downwards. When he starts running a velocity of 12 kmh^(-1) , he observes that the rain is falling at an angle 60^(@) with the vertical. The actual velocity of rain is

A man starts running along a straight road with uniform velocity observes that the rain is falling vertically downward. If he doubles his speed, he finds that the rain is coming at an angle theta to the vertical. The velocity of rain with respect to the ground is :

A man is standing on incline which makes theta with horizontal and rain is falling vertically with respect to man. Now man starts walking along the incline. Mark the correct option

A man running on a horizontal road at 6 km//h finds the rain falling vertically. He doubles his speed and find that the raindrops make an angle 37^(@) with the vertical. Find the velocity of rain with respect to the ground.

To a stationary man, rain appears to be falling at his back at an angle 30^@ with the vertical. As he starts moving forward with a speed of 0.5 m s^-1 , he finds that the rain is falling vertically. The speed of rain with respect to the moving man is.