A particle of mass m is given initial ho...

A particle of mass m is given initial horizontal velocity of magnitude u as shown in the figure. It transfers to the fixed inclined plane without a jump, that is, its trajectory changes sharply from the horizontal line to the inclined line. All the surfaces are smooth adn `90^(@) ge theta gt 0^(@)`. Then the height to which the particle shamm rise on the inclined plane (assume the length of the inclined plane to be very large)

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A particle of mass m is given initial horizontal velocity of magnitude u as shown in the figure. It transfers to the fixed inclined plane without a jump, that is, its trajectory changes sharply from the horizontal line to the inclined line. All the surfaces are smooth and 90^(@) ge theta gt 0^(@) . Then the height to which the particle shall rise on the inclined plane (assume the length of the inclined plane to be very large)

A particle is projected with velocity "u" in horizontal direction as shown in the figure. Find u if particle collides perpendicularly with inclined plane. u

A particle is projected with velocity "u" in horizontal direction as shown in the figure. Find u if particle collides perpendicularly with inclined plane. h

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