You are watching: Air is contained in a vertical piston-cylinder assembly

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)C`. The piston is linked to a spring whose spring consistent is `k = 10^(4) N//m`, and also the spring is initially underformed. How a lot heat must be added to the air inside cylinder to rise the push to 3 atm (for air, `CV = 718 J//kg.^(
Air is contained in a piston-cylinder setup as presented in Fig. through a cross-sectional area of `4 cm^(2)` and also an initial volume of `20 cm^3`. The air is initially at a press of 1 atm and temperature of `20^(
)C`. The piston is linked to a spring whose spring constant is `k = 10^(4) N//m`, and also the spring is initially underformed. How much heat should be included to the air inside cylinder to increase the press to 3 atm (for air, `CV = 718 J//kg.^(
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)C`. The piston is connected to a spring whose spring constant is `k = 10^(4) N//m`, and also the spring is initially undercreated. How a lot heat have to be included to the air inside cylinder to increase the pressure to 3 atm (for air, `CV = 718 J//kg.^(
Air is contained in a piston-cylinder plan as presented in Fig. with a cross-sectional location of `4 cm^(2)` and an initial volume of `20 cc`. The air is initially at a push of 1 atm and also temperature of `20^(
)C`. The piston is associated to a spring whose spring consistent is `k = 10^(4) N//m`, and the spring is initially undercreated. How a lot warm need to be added to the air inside cylinder to rise the pressure to 3 atm (for air, `CV = 718 J//kg.^(
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2 moles of a diatomic gas are enclosed in a cylinder piston arrangment. The location of cross section and mass of the piston are `1 cm^(2)` and also 1 kg respectively. A heater is giving heat to the gas exceptionally slowly. Find heat supplied (in joule) by the heater is the piston moves with a distance of 10 cm. .
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2 moles of a diatomic gas are enclosed in a cylinder piston arrangment. The area of cross area and mass of the piston are `1 cm^(2)` and 1 kg respectively. A heater is offering warmth to the gas very slowly. Find warmth provided (in joule) by the heater is the piston moves through a distance of 10 cm. .
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)`. The air temperature is continuous, the friction is negligible. What is the push of the enclosed gas?" title="In the cylinder displayed in the figure, air is enclosed under the piston. Piston mass M=60 kg, crosssectional area of the cylinder `S_(0)=20cm^(2)` atmospheric push `P_(0)=10^(5) pa alpha=37^(

In the cylinder presented in the number, air is enclosed under the piston. Piston mass M=60 kg, crosssectional location of the cylinder `S_(0)=20cm^(2)` atmospheric pressure `P_(0)=10^(5) pa alpha=37^(

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