image

    Have a query? Ask a Tutor!!

    Access to best educators and exclusive paper discussions

    Offsite CampusTurito Championship

    Can’t find what you’re looking for?

    Our tutors are from top schools around the world, and they are waiting for you 24/7, anytime, anywhere.

    • Homework- One to One Solutions
    • Understand concepts to solve better
    • Get your doubts solved instantly
    Physics-
    General
    Easy

    Question

    Two carts of masses 200 kg and 300 kg on horizontal rails imparted with same speed in opposite direction. Suppose the coefficient of friction between the carts and the rails are same. If the 200 kg cart travels a distance of 36 m and stops, then the distance travelled by the cart weighing 300 kg is :

    1. 32 m    
    2. 24 m    
    3. 16 m    
    4. 12 m    

    The correct answer is: 32 m

    Related Questions to study

    General
    Physics-

    A block of mass 5 kg is on a rough horizontal surface and is at rest. Now a force of 24 N is imparted to it with negligible impulse. If the coefficient of kinetic friction is 0.4 and g = 9.8 m/s2 , then the acceleration of the block is :

    A block of mass 5 kg is on a rough horizontal surface and is at rest. Now a force of 24 N is imparted to it with negligible impulse. If the coefficient of kinetic friction is 0.4 and g = 9.8 m/s2 , then the acceleration of the block is :

    Physics-General
    General
    Physics-

    A block of mass 2 kg is kept on the floor. The coefficient of static friction is 0.4. If a force F of 2.5 Newtons is applied on the block as shown in the figure, the frictional force between the block and the floor will be :

    A block of mass 2 kg is kept on the floor. The coefficient of static friction is 0.4. If a force F of 2.5 Newtons is applied on the block as shown in the figure, the frictional force between the block and the floor will be :

    Physics-General
    General
    Physics-

    In the figure shown, a block of weight 10 N resting on a horizontal surface. The coefficient of static friction between the block and the surface mu subscript s end subscript = 0.4. A force of 3.5 N will keep the block in uniform motion, once it has been set in motion. A horizontal force of 3 N is applied to the block, then the block will :

    In the figure shown, a block of weight 10 N resting on a horizontal surface. The coefficient of static friction between the block and the surface mu subscript s end subscript = 0.4. A force of 3.5 N will keep the block in uniform motion, once it has been set in motion. A horizontal force of 3 N is applied to the block, then the block will :

    Physics-General
    parallel
    General
    Physics-

    Figures I, II, III and IV depict variation of force with time :
    I) 
    II) 
    III) 
    IV) 
    The impulse is highest in the case of situations depicted. Figure

    Figures I, II, III and IV depict variation of force with time :
    I) 
    II) 
    III) 
    IV) 
    The impulse is highest in the case of situations depicted. Figure

    Physics-General
    General
    Physics-

    The variation of momentum with time of one of the body in a two body collision is shown in fig. The instantaneous force is maximum corresponding to point :

    The variation of momentum with time of one of the body in a two body collision is shown in fig. The instantaneous force is maximum corresponding to point :

    Physics-General
    General
    Physics-

    A body of mass 3kg is acted on by a force which varies as shown in the graph below. The momentum acquired is given by :

    A body of mass 3kg is acted on by a force which varies as shown in the graph below. The momentum acquired is given by :

    Physics-General
    parallel
    General
    Physics-

    A particle of mass m, initially at rest, is acted upon by a variable force F for a brief interval of time T. It begins to move with a velocity u after the force stops acting. F is shown in the graph as a function of time. The curve is a semicircle.

    A particle of mass m, initially at rest, is acted upon by a variable force F for a brief interval of time T. It begins to move with a velocity u after the force stops acting. F is shown in the graph as a function of time. The curve is a semicircle.

    Physics-General
    General
    Physics-

    A particle of mass m moving with velocity u makes an elastic one dimensional collision with a stationary particle of mass m. They are in contact for a very short time T. Their force of interaction increases from zero to F0 linearly in time T/2, and decreases linearly to zero in further time T/2. The magnitude of F0 is :

    A particle of mass m moving with velocity u makes an elastic one dimensional collision with a stationary particle of mass m. They are in contact for a very short time T. Their force of interaction increases from zero to F0 linearly in time T/2, and decreases linearly to zero in further time T/2. The magnitude of F0 is :

    Physics-General
    General
    Physics-

    A body of 2 kg has an initial speed 5 ms–1 A force acts on it for some time in the direction of motion. The force time graph is shown in figure. The final speed of the body.

    A body of 2 kg has an initial speed 5 ms–1 A force acts on it for some time in the direction of motion. The force time graph is shown in figure. The final speed of the body.

    Physics-General
    parallel
    General
    Physics-

    As shown in figure, two equal masses each of 2 kg are suspended from a spring balance. The reading of the spring balance will be :

    As shown in figure, two equal masses each of 2 kg are suspended from a spring balance. The reading of the spring balance will be :

    Physics-General
    General
    Physics-

    A person is sitting in a travelling train and facing the engine. He tosses up a coin and the coin falls behind him. It can be concluded that the train is :

    A person is sitting in a travelling train and facing the engine. He tosses up a coin and the coin falls behind him. It can be concluded that the train is :

    Physics-General
    General
    Physics-

    The pulleys and strings shown in the figure are smooth and of negligible mass. For the system to remain in equilibrium, the angle theta should be :

    The pulleys and strings shown in the figure are smooth and of negligible mass. For the system to remain in equilibrium, the angle theta should be :

    Physics-General
    parallel
    General
    Physics-

    The spring balance A reads 2 kg with a block m suspended from it. A balance B reads 5 kg when a beaker filled with liquid is put on the pan of the balance. The two balances are now so arranged that the hanging mass is inside the liquid as shown in figure. In this situation :

    The spring balance A reads 2 kg with a block m suspended from it. A balance B reads 5 kg when a beaker filled with liquid is put on the pan of the balance. The two balances are now so arranged that the hanging mass is inside the liquid as shown in figure. In this situation :

    Physics-General
    General
    Physics-

    A block of mass 4 kg is suspended through two light spring balances A and B. Then A and B will read respectively :

    A block of mass 4 kg is suspended through two light spring balances A and B. Then A and B will read respectively :

    Physics-General
    General
    Physics-

    Three blocks A, B and C weighing 1, 8 and 27 kg respectively are connected as shown in the figure with an inextensible string and are moving on a smooth surface. T3 is equal to 36 N. Then T2 is :

    Three blocks A, B and C weighing 1, 8 and 27 kg respectively are connected as shown in the figure with an inextensible string and are moving on a smooth surface. T3 is equal to 36 N. Then T2 is :

    Physics-General
    parallel

    card img

    With Turito Academy.

    card img

    With Turito Foundation.

    card img

    Get an Expert Advice From Turito.

    Turito Academy

    card img

    With Turito Academy.

    Test Prep

    card img

    With Turito Foundation.