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

Consider the two insulating sheets with thermal resistance R₁ and R₂ as shown in figure. The temperature q is

$\frac{θ_{1} θ_{2} R_{1} R_{2}}{(θ_{1} + θ_{2}) (R_{1} R_{2})}$
$\frac{θ_{1} R_{1} + θ_{2} R_{2}}{R_{1} + R_{2}}$
$\frac{(θ_{1} + θ_{2}) R_{1} R_{2}}{R_{1}^{2} + R_{2}^{2}}$
$\frac{θ_{1} R_{2} + θ_{2} R_{1}}{R_{1} + R_{2}}$

The correct answer is: $fraction numerator theta subscript 1 end subscript R subscript 2 end subscript plus theta subscript 2 end subscript R subscript 1 end subscript over denominator R subscript 1 end subscript plus R subscript 2 end subscript end fraction$

For the two sheets
H₁ = H₂ (H = rate of heat transfer)
or $fraction numerator theta subscript 1 end subscript minus theta over denominator R subscript 1 end subscript end fraction equals fraction numerator theta minus theta subscript 2 end subscript over denominator R subscript 2 end subscript end fraction$
Solving this we get $theta equals fraction numerator theta subscript 1 end subscript R subscript 2 end subscript plus theta subscript 2 end subscript R subscript 1 end subscript over denominator R subscript 1 end subscript plus R subscript 2 end subscript end fraction$

Related Questions to study

A horizontal cylinder has two sections of unequal cross-sections, in which two pistons can move freely. The pistons are joined by a string. Some gas is trapped between the pistons. If this gas is heated, the pistons will

A horizontal cylinder has two sections of unequal cross-sections, in which two pistons can move freely. The pistons are joined by a string. Some gas is trapped between the pistons. If this gas is heated, the pistons will

Physics-General

Six identical conducting rods are joined as shown in figure. Points A and D are maintained at temperatures 200°C and 20°C respectively. The temperature of junction B will be

Six identical conducting rods are joined as shown in figure. Points A and D are maintained at temperatures 200°C and 20°C respectively. The temperature of junction B will be

Physics-General

The figure shows two paths for the change of state of a gas from A to B. The ratio of molar heat capacities in path 1 and path 2 is

The figure shows two paths for the change of state of a gas from A to B. The ratio of molar heat capacities in path 1 and path 2 is

Physics-General

parallel

One end of a conducting rod is maintained at temperature 50°C and at the other end ice is melting at 0°C. The rate of melting of ice is doubled if

One end of a conducting rod is maintained at temperature 50°C and at the other end ice is melting at 0°C. The rate of melting of ice is doubled if

Physics-General

In a vertical U-tube containing a liquid, the two arms are maintained at different temperatures, t₁ and t₂. The liquid columns in the two arms have heights l₁ and l₂ respectively. The coefficient of volume expansion of the liquid is equal to

In a vertical U-tube containing a liquid, the two arms are maintained at different temperatures, t₁ and t₂. The liquid columns in the two arms have heights l₁ and l₂ respectively. The coefficient of volume expansion of the liquid is equal to

Physics-General

A very light rod AB is initially hung from a point P by means of two identical copper wires of the same length as the rod as shown in the figure. Particles of masses 1 kg and 4 kg are then attached to the ends A and B of the rod. The ratio of the fundamental frequencies of vibration of the wires AP and BP, i.e., $fraction numerator f subscript A end subscript over denominator f subscript B end subscript end fraction$ =

A very light rod AB is initially hung from a point P by means of two identical copper wires of the same length as the rod as shown in the figure. Particles of masses 1 kg and 4 kg are then attached to the ends A and B of the rod. The ratio of the fundamental frequencies of vibration of the wires AP and BP, i.e., $fraction numerator f subscript A end subscript over denominator f subscript B end subscript end fraction$ =

Physics-General

parallel

The figures represent two snaps of a travelling wave on a string of mass per unit length, $mu$ = 0.25 kg/m. The two snaps are taken at time t = 0 and at $t equals fraction numerator 1 over denominator 24 end fraction$ s. Then

Figure I

Figure II

The figures represent two snaps of a travelling wave on a string of mass per unit length, $mu$ = 0.25 kg/m. The two snaps are taken at time t = 0 and at $t equals fraction numerator 1 over denominator 24 end fraction$ s. Then

Figure I

Figure II

Physics-General

Two blocks, each of mass m, are connected by a massless thread Y and A represent Young’s modulus and cross sectional area of wire respectively. The strain developed in the thread is

Two blocks, each of mass m, are connected by a massless thread Y and A represent Young’s modulus and cross sectional area of wire respectively. The strain developed in the thread is

Physics-General

A string is hanging from a rigid support. A transverse wave pulse is set up at the bottom. The velocity v of the pulse related to the distance covered by it is given as

A string is hanging from a rigid support. A transverse wave pulse is set up at the bottom. The velocity v of the pulse related to the distance covered by it is given as

Physics-General

parallel

At t=0 source starts falling under gravity and a detector is projected upwards with a velocity 10 m/s. For the vertical upward motion of detector

At t=0 source starts falling under gravity and a detector is projected upwards with a velocity 10 m/s. For the vertical upward motion of detector

Physics-General

The amplitude of resulting wave dues to superposition of y₁ = A sin ( $omega$ t - kx) & y₂ = A sin ( $omega$ t - kx + $delta$ ) is

The amplitude of resulting wave dues to superposition of y₁ = A sin ( $omega$ t - kx) & y₂ = A sin ( $omega$ t - kx + $delta$ ) is

Physics-General

When two simple harmonic motions of same periods, same amplitude, having phase difference of 3 $pi$ /2, and at right angles to each other are super imposed, the resultant wave form is a

When two simple harmonic motions of same periods, same amplitude, having phase difference of 3 $pi$ /2, and at right angles to each other are super imposed, the resultant wave form is a

Physics-General

parallel

When the displacement from the mean position is doubled, the quantity that will vary will be

When the displacement from the mean position is doubled, the quantity that will vary will be

Physics-General

S₁ and S₂ are two identical springs. The oscillation frequency is f. If one spring is removed, frequency will be

S₁ and S₂ are two identical springs. The oscillation frequency is f. If one spring is removed, frequency will be

Physics-General

Two blocks each of mass m are connected with springs of force constant k. Initially springs are relaxed. Mass A is displaced to left and B is displaced towards right by same amount and released then time period of oscillation of any one block (Assume collision to be perfectly elastic)

Two blocks each of mass m are connected with springs of force constant k. Initially springs are relaxed. Mass A is displaced to left and B is displaced towards right by same amount and released then time period of oscillation of any one block (Assume collision to be perfectly elastic)

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.