Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
An adiabatic vertical cylinder fitted with and adiabatic frictionless piston contains n moles of an ideal diatomic gas. The initial volume and temperature of the gas are V0 and T0 respectively,
03
Sep
An adiabatic vertical cylinder fitted with and adiabatic frictionless piston contains n moles of an ideal diatomic gas. The initial volume and temperature of the gas are V0 and T0 respectively, An adiabatic vertical cylinder fitted with and adiabatic frictionless piston contains n moles of an ideal diatomic gas. The initial volume and temperature of [...]
A cylindrical container having nonconducting walls is partitioned in two equal parts such that the volume of the each parts is equal to V0. A movable nonconducting piston is kept between the two parts. Gas on left is slowly heated so
03
Sep
A cylindrical container having nonconducting walls is partitioned in two equal parts such that the volume of the each parts is equal to V0. A movable nonconducting piston is kept between the two parts. Gas on left is slowly heated so expands isothermally until its volume is double and then adiabatically until its volume is [...]
Consider an infinite ladder network shown in the figure. A voltage V is applied between the points A and B. This applied value of voltage is halved after each section, find the ratio of R1/R2. If the infinite ladder is terminated by resistance , then find the value of resistance such that the equivalent resistance of the ladder A and B becomes independent of the number of the number of section in between.
03
Sep
Consider an infinite ladder network shown in the figure. A voltage V is applied between the points A and B. This applied value of voltage is halved after each section, find the ratio of R1/R2. If the infinite ladder is terminated by resistance , then find the value of resistance such that the equivalent resistance [...]
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Consider an infinite ladder network shown in the figure. A voltage V is applied between the points A and B. This applied value of voltage is halved after each section ,
find the ratio of R1/R2. If the infinite ladder is terminated by resistance ,
then find the value of resistance such that the equivalent resistance of the ladder A and B becomes independent of the number of the number of section in between. ,
One mole of perfect gas initially at a pressure gas, initially at a pressure and temperature of 10^5 N/m^2 and 300 K, respectively, expands isothermally until its volume is double and then adiabatically until its volume is again doubled. Find the final pressure
03
Sep
One mole of perfect gas initially at a pressure gas, initially at a pressure and temperature of 10^5 N/m^2 and 300 K, respectively, expands isothermally until its volume is double and then adiabatically until its volume is again doubled. Find the final pressure expands isothermally until its volume is double and then adiabatically until its [...]
Find the resistance RAB of the frame made of a thin wire. Assume that the number of successively embedded equilateral triangles (with sides decrasing ot half) tends to infinity Side AB is equal to a, and the resistance per unit length of wire is λ.
03
Sep
Find the resistance RAB of the frame made of a thin wire. Assume that the number of successively embedded equilateral triangles (with sides decrasing ot half) tends to infinity Side AB is equal to a, and the resistance per unit length of wire is λ. and the resistance per unit length of wire is λ. [...]
In a cylinder, 2.0 moles of an ideal monoatomic gas initially at 1.0×106 Pa and 300 K expands until its volume doubles. Compute the work done if the expansion is (a) isothermal, (b) adiabatic and (c ) isobaric.
03
Sep
In a cylinder, 2.0 moles of an ideal monoatomic gas initially at 1.0×106 Pa and 300 K expands until its volume doubles. Compute the work done if the expansion is (a) isothermal, (b) adiabatic and (c ) isobaric. (b) adiabatic and (c ) isobaric. 2.0 moles of an ideal monoatomic gas initially at 1.0×106 Pa [...]
Identical resistors each of resistance r are connected as shown in fig, calculate equivalent resistance between A and E.
03
Sep
Identical resistors each of resistance r are connected as shown in fig, calculate equivalent resistance between A and E. calculate equivalent resistance between A and E. Identical resistors each of resistance r are connected as shown in fig September 3, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Identical resistors each of resistance r are connected as shown in fig, calculate equivalent resistance between A and E.
03
Sep
Identical resistors each of resistance r are connected as shown in fig, calculate equivalent resistance between A and E. calculate equivalent resistance between A and E. Identical resistors each of resistance r are connected as shown in fig September 3, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Analyze the circuit , find the charge in capacitors C1, C2, and C3 in a steady state.
03
Sep
Analyze the circuit , find the charge in capacitors C1, C2, and C3 in a steady state. Analyze the circuit and C3 in a steady state. C2 find the charge in capacitors C1 September 3, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In the circuit shown in fig, calculate charge on capacitors C1 and C2 in steady state.
03
Sep
In the circuit shown in fig, calculate charge on capacitors C1 and C2 in steady state. calculate charge on capacitors C1 and C2 in steady state. In the circuit shown in fig September 3, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,