Which of the following graphs best represents the variation of pressure (P) with volume (V) of a gas at a fixed temperature? mtance (b) P (a) P (c) P (d) P V
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- Four tanks A, B, C, and D are filled with monatomic ideal gases. For each tank, the mass of an individual atom and the rms speed of the atoms are expressed in terms of m and Vrms respectively (see the table). Suppose that m = 2.68 × 10-26 kg, and Vrms = 1000 m/s. Find the temperature of the gas in each tank. Mass Rms speed A m Urms B m 20rms C 2m Urms D 2m 2Urms(a) 0.3740 moles of krypton gas is placed in a 9.75 L container at 239 K. Find the pressure of the gas in bar? (b) What is the average kinetic energy per mole of krypton gas atoms featured in the previous part? Report your answer in J/mol.A pressure versus volume (pV) diagram for a system is shown in the figure. The arrows of the curve indicate the direction of the process, and the points of interest are labeled. The values for the points in the diagram are shown in the table. Volume (m³) Pressure (Pa) Vo = 25.8 Po = 1.00 × 10ª %3D 2 3 Vị = 20.8 Рі 3D 1.00 х 104 V2 = 17.4 P2 = 5.34 × 103 V3 13.9 P3 = 5.34 x 103 4 V4 = 13.9 P4 = 3.20 × 10³ %3| Vs = 9.55 P5 = 1.00 x 103 %3D Calculate the amount of work done on the system from 0–2 ( Wo2) and then for the entire curve from 0-5 (Wo5). Volume (m³) 79.81 x103 Wo2 J Incorrect 107.09 x103 Wo5 J Incorrect Pressure (Pa)
- The figure below shows a gas contained in a vertical piston–cylinder assembly. A vertical shaft whose cross-sectional area is 0.8 cm2 is attached to the top of the piston. Determine the magnitude, F, of the force acting on the shaft, in N, required if the gas pressure is 3 bar. The masses of the piston and attached shaft are 24.5 kg and 0.5 kg, respectively. The piston diameter is D = 10 cm. The local atmospheric pressure is 1 bar. The piston moves smoothly in the cylinder and g = 9.81 m/s2.a 6.0 cm diameter cyliinder of nitrogen gas has a 4.0 cm thick movable copper piston. the cylinder is oriented vertically as shown in the figure, and the air above the piston is evacuated. when the gas temperature is 25 degree C the piston floats 20 cm above the bottom of the cylinder what is the gas pressure? how many gas molecules are in the cylinder?Needs Complete typed solution with 100 % accuracy.
- Please complete full question. The answer is of no use without it.Calculate the temperature T of a sample of gas when the average translational kinetic energy of a molecule in the sample is 8.09 x 10-21 J. T = K What is the total translational kinetic energy Krans of all the molecules of this sample when it contains 1.55 moles of gas? Ktrans = Jn = 3.9 moles of an ideal gas are pumped into a chamber of volume V = 0.135 m3 Part (a) The initial pressure of the gas is 1 atm. What is the initial temperature (in K) of the gas? Part (b) The pressure of the gas is increased to 10 atm. Now what is the temperature (in K) of the gas
- Container A contains an ideal gas at a pressure of 5 × 10° Pa and at a temperature of 300 K. It is connected by a thin tube to container B which is four times the volume of A, and contains the same ideal gas at a pressure of 1 x 105 Pa at a temperature of 400 K. The connecting valve is opened, and equilibrium is achieved at a common pressure while the temperature of each container is kept constant at its initial value. What is the final pressure in the system?Problem 3. The viral coefficients of a gas at 20 °C and 11.5 bar are B = -138 cm³ mol¹ and C=7222 cmº mol². Calculate the V (molar volume) Z (compressibility factor) of the gas. Use the equation below (R = 83.14 cm³ bar mol-¹ K-¹). PV 2 = ² = (1 + = + =) Z RT