A car travels north with a uniform velocity. It goes over a piece of mud which sticks to the tyre. The particles of the mud, as it leaves the ground are thrown

A man walks towards east with certain velocity. A car is travelling along a road which is 30^(@) west of north. While a bus is travelling in another road which is 60^(@) south of west. Find the angle between velocity vector of (a) man and car (b) car and bus (c) bus and man.

The roadway bridge over a cannot is in the form of an arc of a circle of radius 20 m. what is the maximum speed with which a car cann cross the bridge without leaving the ground at the highet point ?

A particle is thrown vertically upwards with a velocity v . It returns to the ground in time T. which of the following graphs correctly represents the motion ?

A roadway bridge over a rivulet is in the form of quarter of a circle of radius 60 m. What is the maximum speed with which a car can pass over the bridge without leaving the ground at any point ?

A cracker is thrown into air with a velocity of 10 m//s at an angle of 45^(@) with the vertical. When it is at a height of 0.5 m from the ground, it explodes into a number of pieces which follow different parabolic paths. What is the velocity of centre of mass, when it is at a height of 1 m from the ground? ( g = 10 m//s^(2) )

A car is moving with speed v and is taking a turn on a circular road of radius 10 m. The angle of banking is 37^(@) . The driver wants that car does not slip on the road. The coefficient of friction is 0.4 (g = 10 m//sec^(2)) If the car were moving on a flat road and distance between the front tyres is 2 m and the height of the centre of the mass of the car is 1m from the ground, then, the minimum velocity for which car topples is :

A particle is unchanged and is thrown vertically upward from ground level with a speed of 5sqrt(5) m//s in a region of space having uniform electric field As a result, it attains a maximum height h. The particle is then given a positive charge +q and reaches the same maximum height h when thrown vertically upward with a speed of 13 m//s Finally the particle is given a negative charge -q Ignoring air resistance determine the speed (in m//s) with which the negatively charged particle must be thrown vertically upward, so that it attains exactly the same maximum height h.

A 200m - wide river flows due east at a uniform speed of 2.0 m//s . A boat with a speed of 8.0 m/s relative to the water leaves the south bank pointed in a direction 30^@ west of north . What are the (a) magnitude and (b) direction of the boat's velocity relative to the ground ? ( c) how long does the boat take to cross the river ?

A particle A of mass 2m is held on a smooth horizontal table and is attached to one end of an inelastic string which runs over a smooth light pulley at the edge of the table. At the other end of the string there hangs another particle B of mass m, the distance from A to the pulley is l. The particle A is then projected towards the pulley with velocity u. (a) Find the time before the string becomes taut, and shown that after the string becomes taut, the initial velocity of A and B is 4u//3 . (b) Find the common velocity when A reaches the pulley (assume that B has not yet reached the ground).

A national roadway bridge over a canal is in the form of an arc of a circle of radius 49 m. What is the maximum speed with which a car can move without leaving the ground at the highest point? (Take, g=9.8ms^(-2) )