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Two closed containers of equal volume of...

Two closed containers of equal volume of air are initially at `1.05xx10^(5)` Pa, and 300 K temperature. If the containers are connected by a narrow tube and one container is maintained at 300 K temperature and other at 400 K temperature. Find the final pressure in the containers.

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To solve the problem step by step, we will use the ideal gas law and the concept of conservation of moles. ### Step 1: Understand the Initial Conditions We have two containers of equal volume (let's denote the volume of each container as V) filled with air at an initial pressure \( P_0 = 1.05 \times 10^5 \) Pa and temperature \( T_0 = 300 \) K. ### Step 2: Calculate the Initial Number of Moles Using the ideal gas law, we can find the initial number of moles \( n \) in each container: \[ ...
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PHYSICS GALAXY - ASHISH ARORA-Kinetic Theory of Gases and Gas Laws-Unsolved Numerical Problems for Preparation of NSEP, INPhO & IPhO
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  8. Calculate the number of molecules/m^(3) in an ideal gas at STP.

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  10. In outer space the density of matter is about one atom per cm^(3), mai...

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  12. A tank contains 28.0 kg of O(2) gas at a gauge pressure of 6.80 atm. I...

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  14. A house has a volume of 600 m^(3). If the temperature rises to 25^(@...

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  15. A tire is filled with air at 15^(@)C to a gauge pressure of 1.9xx10^(5...

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  16. An electric bulb of volume 250 cm^(3) was sealed off during manufactur...

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  17. A column of mercury of 10cm length is contained in the middle of a nar...

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  18. Two cylinder having m(1)g and m(2)g of a gas at pressure P(1) and P(2...

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  19. In a toy truck the volume of its tyre tube is 2000 cm^(3) in which air...

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  20. Show that the volume thermal expansion coefficient for an ideal gas at...

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  21. The temperature of a room of volume Vrise from T(1) to T(2). How much ...

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