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An ideal gas of molar mass M is filled in a horizontal cylinder closed at one end. The cylinder rotates with a constant angular velocity w about a vertical axis passing through the open end of the cylinder. The pressure at the axis of the cylinder is
02
Sep
An ideal gas of molar mass M is filled in a horizontal cylinder closed at one end. The cylinder rotates with a constant angular velocity w about a vertical axis passing through the open end of the cylinder. The pressure at the axis of the cylinder is a molecule at the surface of the earth [...]
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Tags: a molecule at the surface of the earth can escape the Eartsh's gravitation which means that it can continue to move away from the Earth forever. Using the principle of conservation of energy , If it has enough kinetic energy , show that the minimum kinetic energy needed to ,
If it has enough kinetic energy, a molecule at the surface of the earth can escape the Earth’s gravitation which means that it can continue to move away from the Earth forever. Using the principle of conservation of energy, show that the minimum kinetic energy needed to-duplicate-1
02
Sep
If it has enough kinetic energy, a molecule at the surface of the earth can escape the Earth’s gravitation which means that it can continue to move away from the Earth forever. Using the principle of conservation of energy, show that the minimum kinetic energy needed to-duplicate-1 a molecule at the surface of the earth [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: a molecule at the surface of the earth can escape the Eartsh's gravitation which means that it can continue to move away from the Earth forever. Using the principle of conservation of energy , If it has enough kinetic energy , show that the minimum kinetic energy needed to ,
In the given circuits, fig. (a) and (b) , calculate the resistance between points A and B.
02
Sep
In the given circuits, fig. (a) and (b) , calculate the resistance between points A and B. calculate the resistance between points A and B. fig. (a) and (b) In the given circuits 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 resistance between points A and B. , fig. (a) and (b) , In the given circuits ,
If it has enough kinetic energy, a molecule at the surface of the earth can escape the Eartsh’s gravitation which means that it can continue to move away from the Earth forever. Using the principle of conservation of energy, show that the minimum kinetic energy needed to
02
Sep
If it has enough kinetic energy, a molecule at the surface of the earth can escape the Eartsh’s gravitation which means that it can continue to move away from the Earth forever. Using the principle of conservation of energy, show that the minimum kinetic energy needed to a molecule at the surface of the earth [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: a molecule at the surface of the earth can escape the Eartsh's gravitation which means that it can continue to move away from the Earth forever. Using the principle of conservation of energy , If it has enough kinetic energy , show that the minimum kinetic energy needed to ,
Nine wires each of resistance are connected to make a prism as shown in figure. Find the equivalent resistance of the arrangement across a). AD b). AB
02
Sep
Nine wires each of resistance are connected to make a prism as shown in figure. Find the equivalent resistance of the arrangement across a). AD b). AB Nine wires each of resistance are connected to make a prism as shown in figure. Find the equivalent resistance of the arrangement across a). AD b). AB September [...]
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Tags: Nine wires each of resistance are connected to make a prism as shown in figure. Find the equivalent resistance of the arrangement across a). AD b). AB ,
Consider a rectangular block of wood moving with a velocity v0 in a gas at temperature T and mass density ρ. Assume the velocity is along x-axis and the area of cross-section of the block perpendicular to v0 is A.
02
Sep
Consider a rectangular block of wood moving with a velocity v0 in a gas at temperature T and mass density ρ. Assume the velocity is along x-axis and the area of cross-section of the block perpendicular to v0 is A. flying at random within this space with no way of knowing where the other planes [...]
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Tags: flying at random within this space with no way of knowing where the other planes are , On the average about how long a time will elapse between near collision with your , Ten small planes are flying at a speed of 150km/h in total darkness in an air space that is 20×20×1.5km^3 in volume. You are in one of the planes ,
In Fig., the resistances are connected as shown. Given R1= 10Ω R2= 20Ω. Determine the equivalent resistance between points (i) A and D and (ii) B and C
02
Sep
In Fig., the resistances are connected as shown. Given R1= 10Ω R2= 20Ω. Determine the equivalent resistance between points (i) A and D and (ii) B and C In Fig. the resistances are connected as shown. Given R1= 10Ω R2= 20Ω. Determine the equivalent resistance between points (i) A and D and (ii) B and [...]
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Tags: In Fig. , the resistances are connected as shown. Given R1= 10Ω R2= 20Ω. Determine the equivalent resistance between points (i) A and D and (ii) B and C ,
Ten small planes are flying at a speed of 150km/h in total darkness in an air space that is 20×20×1.5km^3 in volume. You are in one of the planes, flying at random within this space with no way of knowing where the other planes are, On the average about how long a time will elapse between near collision with your
02
Sep
Ten small planes are flying at a speed of 150km/h in total darkness in an air space that is 20×20×1.5km^3 in volume. You are in one of the planes, flying at random within this space with no way of knowing where the other planes are, On the average about how long a time will elapse [...]
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Tags: flying at random within this space with no way of knowing where the other planes are , On the average about how long a time will elapse between near collision with your , Ten small planes are flying at a speed of 150km/h in total darkness in an air space that is 20×20×1.5km^3 in volume. You are in one of the planes ,
Pressure- temperature graph of n moles of an ideal gas is given in figure. Plot the corresponding graphs: (a) density-volume (p-v) graph (b)
02
Sep
Pressure- temperature graph of n moles of an ideal gas is given in figure. Plot the corresponding graphs: (a) density-volume (p-v) graph (b) Pressure- temperature graph of n moles of an ideal gas is given in figure. Plot the corresponding graphs: (a) density-volume (p-v) graph (b) September 2, 2020 Category: Uncategorised (JEE Advanced Physics by [...]
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Tags: Pressure- temperature graph of n moles of an ideal gas is given in figure. Plot the corresponding graphs: (a) density-volume (p-v) graph (b) ,
In the network shown in fig. find the equivalent resistance across the points M and M”.
02
Sep
In the network shown in fig. find the equivalent resistance across the points M and M”. In the network shown in fig. find the equivalent resistance across the points M and M". 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 network shown in fig. find the equivalent resistance across the points M and M". ,