A sealed cubical container 30.0 cm on a side contains a gas with three times Avogadro's number of krypton atoms at a temperature of 16.0°C. HINT (a) Find the internal energy (in J) of the gas. X J (b) The total translational kinetic energy (in J) of the gas. X J (c) Calculate the average kinetic energy (in J) per atom. X J (d) Use P = = ² (~) (²/²) to calculate the gas pressure (in Pa). X Pa (e) Calculate the gas pressure (in Pa) using the ideal gas law (PV = nRT). X Pa

A sealed cubical container 30.0 cm on a side contains a gas with three times Avogadro's number of krypton atoms at a temperature of 16.0°C. HINT (a) Find the internal energy (in J) of the gas. X J (b) The total translational kinetic energy (in J) of the gas. X J (c) Calculate the average kinetic energy (in J) per atom. X J (d) Use P = = ² (~) (²/²) to calculate the gas pressure (in Pa). X Pa (e) Calculate the gas pressure (in Pa) using the ideal gas law (PV = nRT). X Pa

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Question

A sealed cubical container 30.0 cm on a side contains a gas with three times Avogadro's number of krypton atoms at a temperature of 16.0°C.
HINT
(a) Find the internal energy (in J) of the gas.
x
(b) The total translational kinetic energy (in J) of the gas.
X
(c) Calculate the average kinetic energy (in J) per atom.
x
X J
1
- (+) (²²) to calculate the gas pressure (in Pa).
(d) Use P =
x
X Pa
(e) Calculate the gas pressure (in Pa) using the ideal gas law (PV = nRT).
X Pa

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Step 1: Identification of physical quantities in question

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Step 2: Introducing concept vof internal energy of gas

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Step 3: Calculation for total translational kinetic energy

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Step 4: Calculation for average kinetic energy of gas

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Step 5: Calculation for pressure of gas

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Step 6: Calculation for pressure of gas by using ideal gas equation

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