The partics are placed at stone

State the chemical change that takes place when lime stone is heated

Find the force exerted by the water on a 2m^2 plane surface of a large stone placed at the bottom of a sea 500 m deep. Does the force depend on the orientation of the surface? Neglect the size of the stone in comparison to the depth of the sea.

A partical is placed at rest inside a hollow hemisphare of redius R . The coefficient of friction between the partical and the homisphere is mu = (1)/sqrt(3) . The maximum height up to which the partical can remain stationary is

A partical executes SHM with an amplltude of 10 cm and friquency 2 Hz, at t = 0 , the partical is at point where potential energy and kinetic energy are same. Find the equation of displacement of partical.

Large number of stones are placed in a small boat. The boat is floating in a water tank. If stones are unloaded in the water in the tank then which of the following are incorrect.

A uniform force of (3 hati + hatj) newton acts on a partical of mass 2 kg . Hence the partical is displaced from position (2 hati + hatk) metre to possion (4 hati + 3 hatj - hatk) meters. The work done by the force on the partical is

A partical of mass m is located in a unidimensionnal potential field where potentical energy of the partical depends on the coordinates x as U (x) = (A)/(x^(2)) - (B)/(x) where A and B are positive constant. Find the time period of small oscillation that the partical perform about equilibrium possition.

A partical of mass m is located in a unidimensionnal potential field where potentical energy of the partical depends on the coordinates x as: U (x) = U_(0) (1 - cos Ax), U_(0) and A constants. Find the period of small oscillation that the partical performs about the equilibrium position.

Name the type of energy (K.E. or P.E.) possessed in the following cases A stone placed at the roof

Completion type Question : From a place, where g = 9.8 ms^(-2) , a stone is thrown upwards with a velocity of 4.9 ms^(-1) . The time taken for the stone to return to ground is ………….