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Physics-

General

Easy

Question

Figure, shows wave fronts in still water, moving in the direction of the arrow towards the interface PQ between a shallow region and a deep(denser) region. Which of the lines shown may represent one of the wave fronts in the deep region?

I
II
III
IV

The correct answer is: I

Related Questions to study

In the figure, the block of mass m, attached to the spring of stiffness k is in contact with the completely elastic wall, and the compression in the spring is 'e'. The spring is compressed further by 'e' by displacing the block towards left and is then released. If the collision between the block and the wall is completely elastic then the time period of oscillations of the block will be:

In the figure, the block of mass m, attached to the spring of stiffness k is in contact with the completely elastic wall, and the compression in the spring is 'e'. The spring is compressed further by 'e' by displacing the block towards left and is then released. If the collision between the block and the wall is completely elastic then the time period of oscillations of the block will be:

physics-General

Time period of small oscillation (in a vertical plane normal to the plane of strings) of the bob in the arrangement shown will be:

Time period of small oscillation (in a vertical plane normal to the plane of strings) of the bob in the arrangement shown will be:

physics-General

A body executes SHM whose period is 16s. Two seconds after it passes the equilibrium position, its velocity is 1ms^–1 The amplitude of SHM is

A body executes SHM whose period is 16s. Two seconds after it passes the equilibrium position, its velocity is 1ms^–1 The amplitude of SHM is

physics-General

parallel

A 2 Kg block moving with 10 m/s strikes a spring of constant $pi to the power of 2 end exponent$ N/m attached to 2 Kg block at rest kept on a smooth floor. The time for which rear moving block remain in contact with spring will be

A 2 Kg block moving with 10 m/s strikes a spring of constant $pi to the power of 2 end exponent$ N/m attached to 2 Kg block at rest kept on a smooth floor. The time for which rear moving block remain in contact with spring will be

physics-General

A particle performing SHM is found at its equilibrium at t = 1sec. and it is found to have a speed of 0.25 m/s at t = 2 sec. If the period of oscillation is 6 sec. Calculate amplitude of oscillation

A particle performing SHM is found at its equilibrium at t = 1sec. and it is found to have a speed of 0.25 m/s at t = 2 sec. If the period of oscillation is 6 sec. Calculate amplitude of oscillation

physics-General

A man is swinging on a swing made of 2 ropes of equal length L and in direction perpendicular to the plane of paper. The time period of the small oscillations about the mean position is

A man is swinging on a swing made of 2 ropes of equal length L and in direction perpendicular to the plane of paper. The time period of the small oscillations about the mean position is

physics-General

parallel

The graphs in figure show that a quantity y varies with displacement d in a system undergoing simple harmonic motion.
I)
II)
III)
IV)
The total energy of the system

The graphs in figure show that a quantity y varies with displacement d in a system undergoing simple harmonic motion.
I)
II)
III)
IV)
The total energy of the system

physics-General

A cylindrical block of density r is partially immersed in a liquid of density $3 rho$ . The plane surface of the block remains parallel to the surface of the liquid. The height of the block is 60 cm. The block performs SHM when displaced from its mean position. [Use g = 9.8 m/s²]

A cylindrical block of density r is partially immersed in a liquid of density $3 rho$ . The plane surface of the block remains parallel to the surface of the liquid. The height of the block is 60 cm. The block performs SHM when displaced from its mean position. [Use g = 9.8 m/s²]

physics-General

A ring of mass M and radius R sliding with a velocity v₀ suddenly enters into rough surface where the coefficient of friction is $mu$ , as shown in figure.

Choose the correct statement(s)

A ring of mass M and radius R sliding with a velocity v₀ suddenly enters into rough surface where the coefficient of friction is $mu$ , as shown in figure.

Choose the correct statement(s)

physics-General

parallel

A plank with a uniform sphere placed on it, rests on a smooth horizontal plane. Plank is pulled to right by a constant force F. If the sphere does not slip over the plank.

A plank with a uniform sphere placed on it, rests on a smooth horizontal plane. Plank is pulled to right by a constant force F. If the sphere does not slip over the plank.

physics-General

A yo-yo is resting on a perfectly rough horizontal table. Forces F₁ , F₂ and F₃ are applied separately as shown. The correct statement is

A yo-yo is resting on a perfectly rough horizontal table. Forces F₁ , F₂ and F₃ are applied separately as shown. The correct statement is

physics-General

A uniform rod of mass M is hinged at its upper end. A particle of mass m moving horizontally strikes the rod at its mid point elastically. If the particle comes to rest after collision find the value of M/m =?

A uniform rod of mass M is hinged at its upper end. A particle of mass m moving horizontally strikes the rod at its mid point elastically. If the particle comes to rest after collision find the value of M/m =?

physics-General

parallel

A uniform rod AB of length L and mass M is lying on a smooth table. A small particle of mass m strike the rod with a velocity v₀ at point C a distance x from the centre O. The particle comes to rest after collision. The value of x, so that point A of the rod remains stationary just after collision, is :

A uniform rod AB of length L and mass M is lying on a smooth table. A small particle of mass m strike the rod with a velocity v₀ at point C a distance x from the centre O. The particle comes to rest after collision. The value of x, so that point A of the rod remains stationary just after collision, is :

physics-General

A uniform rod AB of length L and mass M is lying on a smooth table. A small particle of mass m strike the rod with a velocity v₀ at point C at a distance x from the centre O. The particle comes to rest after collision. The value of x, so that point A of the rod remains stationary just after collision is:

A uniform rod AB of length L and mass M is lying on a smooth table. A small particle of mass m strike the rod with a velocity v₀ at point C at a distance x from the centre O. The particle comes to rest after collision. The value of x, so that point A of the rod remains stationary just after collision is:

physics-General

A thin uniform straight rod of mass 2 kg and length 1 m is free to rotate about its upper end when at rest. It receives an impulsive blow of 10 Ns at its lowest point, normal to its length as shown in figure. The kinetic energy of rod just after impact is

A thin uniform straight rod of mass 2 kg and length 1 m is free to rotate about its upper end when at rest. It receives an impulsive blow of 10 Ns at its lowest point, normal to its length as shown in figure. The kinetic energy of rod just after impact is

physics-General

parallel

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