[" The temperature of an open room of vo...

[" The temperature of an open room of vol- "],[" ume "30m^(3)" increased from "17^(@)C" to "27^(@)C" due "],[" to the sunshine.The atmospheric pressure "],[" in the room remains "1times10^(5)Pa" .If "n_(i)" and "n_(f)],[" are the number of molecules in the room "],[" before and after heating,then "n_(f)-n_(i)" will be "]

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The temperature of an open room of volume 30 m^(3) increases from 17^(@)C to 27^(@)C due to sunshine. The atmospheric pressure in the room remains 1xx10^(5) Pa. If n_(i) and n_(f) are the number of molecules in the room before and after heating, then n_(f)-n_(i) will be

The temperature of an open room of volume 30 m^(3) increases from 17^(@)C to 27^(@)C due to sunshine. The atmospheric pressure in the room remains 1 xx 10^(5) Pa . If n_(i) and n_(f) are the number of molecules in the room before and after heating then n_(f) and n_(i) will be

The temperature of an open room of volume 30 m^(3) increases from 17^(@)C to 27^(@)C due to sunshine. The atmospheric pressure in the room remains 1 xx 10^(5) Pa . If n_(i) and n_(f) are the number of molecules in the room before and after heating then n_(f) - n_(i) will be

The temperature of an open room of volume 30 m^(3) increases from 17^(@)C to 27^(@)C due to sunshine. The atmospheric pressure in the room remains 1 xx 10^(5) Pa . If n_(i) and n_(f) are the number of molecules in the room before and after heating then n_(f) and n_(i) will be

Estimate the total number of air molecules in a room of capacity 25m^(3) at a temperature of 27^(@)C .

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