Have a query? Ask a Tutor!!

Access to best educators and exclusive paper discussions

Offsite Campus Turito 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

When the prism is in the minimum deviation position (Figure). Choose the correct one.

i₁ = i₂ = I and r₁ = r = r
Angle of minimum deviation is. Dm=2 (i-A)
Angle of incident $i = \frac{A + D_{m}}{4}$
Angle of refraction r = A/4

The correct answer is: i₁ = i₂ = I and r₁ = r = r

Related Questions to study

The inclined plane OA rotates in vertical plane about a horizontal axis through = 3 rad/sec. As it passes the $omega$ O with a constant counter clockwise velocity $theta$ = 0, a small mass m = 1 kg is placed upon it at a radial distance r =position 0.5 m. If the mass is observed to be at rest with respect to inclined plane. $theta$ = 37° between the mass The value of static friction force at & the incline plane.

The inclined plane OA rotates in vertical plane about a horizontal axis through = 3 rad/sec. As it passes the $omega$ O with a constant counter clockwise velocity $theta$ = 0, a small mass m = 1 kg is placed upon it at a radial distance r =position 0.5 m. If the mass is observed to be at rest with respect to inclined plane. $theta$ = 37° between the mass The value of static friction force at & the incline plane.

physics-General

A skier plans to ski a smooth fixed hemisphere of radius R. He starts from at which heqrest from a curved smooth surface of height (R/4). The angle leaves the hemisphere is

A skier plans to ski a smooth fixed hemisphere of radius R. He starts from at which heqrest from a curved smooth surface of height (R/4). The angle leaves the hemisphere is

physics-General

A smooth semicircular tube AB of radius r is fixed in a vertical plane r asp r and weight W= pand contains a heavy flexible chain of length shown. Assuming a slight disturbance to start the chain in motion, the velocity v with which it will emerge from the open end B of the tube is

A smooth semicircular tube AB of radius r is fixed in a vertical plane r asp r and weight W= pand contains a heavy flexible chain of length shown. Assuming a slight disturbance to start the chain in motion, the velocity v with which it will emerge from the open end B of the tube is

physics-General

parallel

Block A in the figure is released from rest when the extension in the spring is $x subscript 0 end subscript$ The maximum downwards displacement of the block is

Block A in the figure is released from rest when the extension in the spring is $x subscript 0 end subscript$ The maximum downwards displacement of the block is

physics-General

A bead of mass 5kg is free to slide on the horizontal rod AB. They are connected to two identical springs of natural length h ms as shown. If initially bead was at O & M is vertically below L then, velocity of bead at point N will be

A bead of mass 5kg is free to slide on the horizontal rod AB. They are connected to two identical springs of natural length h ms as shown. If initially bead was at O & M is vertically below L then, velocity of bead at point N will be

physics-General

A constant force produces maximum velocity V on the block connected to the spring of force constant K as shown in the fig. When the force constant of spring becomes 4K, the maximum velocity of the block is

A constant force produces maximum velocity V on the block connected to the spring of force constant K as shown in the fig. When the force constant of spring becomes 4K, the maximum velocity of the block is

physics-General

parallel

Potential energy and position for a conservative force are plotted in graph shown. Then force position graph can be

Potential energy and position for a conservative force are plotted in graph shown. Then force position graph can be

physics-General

A block ‘A’ of mass 45 kg is placed on a block ‘B’ of mass 123 kg. Now block ‘B’ is displaced by external agent by 50 cm horizontally towards right. During the same time block ‘A’ just reaches to the left end of block B. Initial & final position are shown in figure. Refer to the figure & find the work done by frictional force on block A in ground frame during above time.

A block ‘A’ of mass 45 kg is placed on a block ‘B’ of mass 123 kg. Now block ‘B’ is displaced by external agent by 50 cm horizontally towards right. During the same time block ‘A’ just reaches to the left end of block B. Initial & final position are shown in figure. Refer to the figure & find the work done by frictional force on block A in ground frame during above time.

physics-General

A sphere of mass m is kept between two inclined walls, as shown in the figure. If the coefficient of friction between each wall and the sphere is zero, then the ratio of normal reaction $open parentheses N subscript 1 end subscript divided by N subscript 2 end subscript close parentheses$ offered by the walls 1 and 2 on the sphere will be

A sphere of mass m is kept between two inclined walls, as shown in the figure. If the coefficient of friction between each wall and the sphere is zero, then the ratio of normal reaction $open parentheses N subscript 1 end subscript divided by N subscript 2 end subscript close parentheses$ offered by the walls 1 and 2 on the sphere will be

physics-General

parallel

Two wedges, each of mass m, are placed next to each other on a flat floor. A cube of mass M is balanced on the wedges as shown. Assume no friction between $mu$ the cube and the wedges, but a coefficient of static friction < 1 between the wedges and the floor. What is the largest M that can be balanced as shown without motion of the wedges?

Two wedges, each of mass m, are placed next to each other on a flat floor. A cube of mass M is balanced on the wedges as shown. Assume no friction between $mu$ the cube and the wedges, but a coefficient of static friction < 1 between the wedges and the floor. What is the largest M that can be balanced as shown without motion of the wedges?

physics-General

In the Figure, AB and BK represent incident and reflected rays. If angle BCF = 35º. Then ÐBFP. will be equal to ____ degrees.

In the Figure, AB and BK represent incident and reflected rays. If angle BCF = 35º. Then ÐBFP. will be equal to ____ degrees.

physics-General

An arrangement of the masses and pulleys is shown in the figure. Strings connecting masses A and B with pulleys are horizontal and all pulleys and strings are light. Friction coefficient between the surface and the block B is 0.2 and between blocks A and B is 0.7. The system is released from rest (use g = 10 $m divided by s to the power of 2 end exponent$ ).

An arrangement of the masses and pulleys is shown in the figure. Strings connecting masses A and B with pulleys are horizontal and all pulleys and strings are light. Friction coefficient between the surface and the block B is 0.2 and between blocks A and B is 0.7. The system is released from rest (use g = 10 $m divided by s to the power of 2 end exponent$ ).

physics-General

parallel

The graph between $1 divided by lambda comma$ where $lambda$ is wavelength of incident light and stopping potential (V) of three metals having work functions $phi subscript 1 end subscript comma phi subscript 2 end subscript$ and $phi subscript 3 end subscript$ in an experiment of photo-electric effect is plotted as shown in the figure. Which of the following statements is correct?

The graph between $1 divided by lambda comma$ where $lambda$ is wavelength of incident light and stopping potential (V) of three metals having work functions $phi subscript 1 end subscript comma phi subscript 2 end subscript$ and $phi subscript 3 end subscript$ in an experiment of photo-electric effect is plotted as shown in the figure. Which of the following statements is correct?

physics-General

A particle is projected with a speed V from a point O making an angle of 30° with the vertical. At the same instant, a second particle is thrown vertically upward from a point A with speed v. The two particle reach H, the highest point on the parabolic path of the first particle simultaneously, then the ratio

A particle is projected with a speed V from a point O making an angle of 30° with the vertical. At the same instant, a second particle is thrown vertically upward from a point A with speed v. The two particle reach H, the highest point on the parabolic path of the first particle simultaneously, then the ratio

physics-General

A girl is riding on a flat car travelling with a constant velocity 10 ms-1 as shown in the fig. She wishes to throw a ball through a stationary hoop in such a manner that the ball will move horizontally as it passes through the hoop. She throws the ball with an initial speed $square root of 136 m s to the power of negative 1 end exponent$ with respect to car. The horizontal distance in front of the hoop at which ball has to be thrown is

A girl is riding on a flat car travelling with a constant velocity 10 ms-1 as shown in the fig. She wishes to throw a ball through a stationary hoop in such a manner that the ball will move horizontally as it passes through the hoop. She throws the ball with an initial speed $square root of 136 m s to the power of negative 1 end exponent$ with respect to car. The horizontal distance in front of the hoop at which ball has to be thrown 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.