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Six resistor are arranged along the edges of a pyramid as shown in Fig. 5.43. The values of resistances are mentioned with resistances in the figure. Find the effective between A and B.
02
Sep
Six resistor are arranged along the edges of a pyramid as shown in Fig. 5.43. The values of resistances are mentioned with resistances in the figure. Find the effective between A and B. Six resistor are arranged along the edges of a pyramid as shown in Fig. 5.43. The values of resistances are mentioned with [...]
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Tags: Six resistor are arranged along the edges of a pyramid as shown in Fig. 5.43. The values of resistances are mentioned with resistances in the figure. Find the effective between A and B. ,
In the following network of 12 identical resistances, calculate the equivalent resistance between points A and C
02
Sep
In the following network of 12 identical resistances, calculate the equivalent resistance between points A and C calculate the equivalent resistance between points A and C In the following network of 12 identical resistances September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: calculate the equivalent resistance between points A and C , In the following network of 12 identical resistances ,
A cylinder contains 2 liters of air at 2 atmospheric pressure and 200 k. is subjected to the following cyclic process in four different stages. It is (a) heated at constant pressure to 600 k, (b) cooled at constant volume to 300 k
02
Sep
A cylinder contains 2 liters of air at 2 atmospheric pressure and 200 k. is subjected to the following cyclic process in four different stages. It is (a) heated at constant pressure to 600 k, (b) cooled at constant volume to 300 k (b) cooled at constant volume to 300 k A cylinder contains 2 [...]
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Tags: (b) cooled at constant volume to 300 k , A cylinder contains 2 liters of air at 2 atmospheric pressure and 200 k. is subjected to the following cyclic process in four different stages. It is (a) heated at constant pressure to 600 k ,
In the circuit shown in figure E,F, G and H are cell of emf 2,1,3, and 1V respectively. The resistances 2,1,3 and 1(Omega)are their respective internal resistance .Calculate (a)the potential difference between B and D and (b) the potential differences across the terminals of each of each of the cells G and H.
02
Sep
In the circuit shown in figure E,F, G and H are cell of emf 2,1,3, and 1V respectively. The resistances 2,1,3 and 1(Omega)are their respective internal resistance .Calculate (a)the potential difference between B and D and (b) the potential differences across the terminals of each of each of the cells G and H. 1 3% [...]
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Tags: 1 , 3% , and 1V respectively. The resistances 2 , F , Find the current in each part of the circuit given in fig.(a). , G and H are cell of emf 2 , In the circuit shown in figure E ,
An adiabatic vessel contains n1 = 3 mole of diatomic gas. Moment of inertia of each molecule is I=2.76×10^−46kgm^2 and root-mean-square angular velocity is ω0=5×10^12rad/s. Another adiabatic vessel contains n2=5 mole of a monoatomic gas at a temperature 470K. Assume gases to be ideal, calculate root-mean-square angular velocity of diatomic molecules when the two vessels are connected by a thin tube
02
Sep
An adiabatic vessel contains n1 = 3 mole of diatomic gas. Moment of inertia of each molecule is I=2.76×10^−46kgm^2 and root-mean-square angular velocity is ω0=5×10^12rad/s. Another adiabatic vessel contains n2=5 mole of a monoatomic gas at a temperature 470K. Assume gases to be ideal, calculate root-mean-square angular velocity of diatomic molecules when the two vessels [...]
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Tags: Find the minimum attainable pressure of an ideal gas in the process T=T0+αV^2 , Where T0 and α are positive constant and V is the volume of one mole of gas. Draw the approximate T−V plot of this process. ,
Find the current in each part of the circuit given in fig.(a).
02
Sep
Find the current in each part of the circuit given in fig.(a). Find the current in each part of the circuit given in fig.(a). September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: Find the current in each part of the circuit given in fig.(a). ,
In the circuit shown in fig. determine the voltage drop between A and D.
02
Sep
In the circuit shown in fig. determine the voltage drop between A and D. In the circuit shown in fig. determine the voltage drop between A and D. September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: In the circuit shown in fig. determine the voltage drop between A and D. ,
Find the minimum attainable pressure of an ideal gas in the process T=T0+αV^2, Where T0 and α are positive constant and V is the volume of one mole of gas. Draw the approximate T−V plot of this process.
02
Sep
Find the minimum attainable pressure of an ideal gas in the process T=T0+αV^2, Where T0 and α are positive constant and V is the volume of one mole of gas. Draw the approximate T−V plot of this process. Find the minimum attainable pressure of an ideal gas in the process T=T0+αV^2 Where T0 and α [...]
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Tags: Find the minimum attainable pressure of an ideal gas in the process T=T0+αV^2 , Where T0 and α are positive constant and V is the volume of one mole of gas. Draw the approximate T−V plot of this process. ,
In the circuit shown in fig. find the current through the branch BD.
02
Sep
In the circuit shown in fig. find the current through the branch BD. In the circuit shown in fig. find the current through the branch BD. September 2, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: In the circuit shown in fig. find the current through the branch BD. ,
Five grams of helium having rms speed of molecules 1000m/s and 24g of oxygen having rms speed of 1000m/s are introduced into a thermally isolated vessel. Find the rms speeds of helium and oxygen individually when thermal equilibrium is attained. Neglect the heat capacity of vessel.
02
Sep
Five grams of helium having rms speed of molecules 1000m/s and 24g of oxygen having rms speed of 1000m/s are introduced into a thermally isolated vessel. Find the rms speeds of helium and oxygen individually when thermal equilibrium is attained. Neglect the heat capacity of vessel. A cubical vessel of side 1m contains one mole [...]
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Tags: A cubical vessel of side 1m , contains one mole of nitrogen at a temperature of 300 K. If the molecules are assumed to move at rms velocity , find number of collisions per second which the molecules make with each wall of vessel. ,