mean kinetic energy of one gram molecule of a perfect gas absolute temperature t
Answers
Explanation:
We need to find the mean kinetic energy of one gram mole of a perfect gas at Absolute Temperature T .
We need to find the mean kinetic energy of one gram mole of a perfect gas at Absolute Temperature T .We know according to Kinetic Theory Of Gases average kinetic energy associated with a particular direction is
We need to find the mean kinetic energy of one gram mole of a perfect gas at Absolute Temperature T .We know according to Kinetic Theory Of Gases average kinetic energy associated with a particular direction is We know , their are the three dimensions associated to a particle is three times of a single direction .
We need to find the mean kinetic energy of one gram mole of a perfect gas at Absolute Temperature T .We know according to Kinetic Theory Of Gases average kinetic energy associated with a particular direction is We know , their are the three dimensions associated to a particle is three times of a single direction .Therefore , mean kinetic energy of one gram mole of a perfect gas at absolute temperature T is
We need to find the mean kinetic energy of one gram mole of a perfect gas at Absolute Temperature T .We know according to Kinetic Theory Of Gases average kinetic energy associated with a particular direction is We know , their are the three dimensions associated to a particle is three times of a single direction .Therefore , mean kinetic energy of one gram mole of a perfect gas at absolute temperature T is Hence , this is the required solution .
Answer:
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the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?Q-5. Six pumps working together empty a tank in 28 minutes. How long will it take to empty
the tank if 4 such pumps are working together?