Find the numeric value of the work done on the gas in the following figures. HINT (a) (b) 3 P (105Pa) 3.00 2.00 1.00 P (105 Pa) 3.00 2.00 14 2.00 4.00 6.00 1.00 2.00 4.00 6.00 V (m³) - V (m³)
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- One mole of an ideal gas does 1700 J of work as it expands isothermally to a final pressure of 1.00 × 105 Pa and volume of 0.039 m3. What was the initial volume of the gas, in cubic meters?During some actual expansion and compression processes in piston–cylinder devices, the gases have been observed to satisfy the relationship PV n = C, where n and C are constants. Calculate the work done when a gas expands from 350 kPa and 0.03 m3 to a final volume of 0.2 m3 for the case of n = 1.5.One mole of an ideal gas does 4900 J of work as it expands isothermally to a final pressure of 1.00 atm and volume of 0.026 m3 What was the initial volume of the gas, in cubic meters?
- If a gas in a cylinder pushes back a piston against a constant opposing pressure of 2.69 × 105 pascals and undergoes a volume change of 0.553 m3, how much work will the gas do, expressed in joules? Answer: ___JA tank with a pressure of 2.5 atm and a volume of 12 m³ is compressed at constant pressure to 1/4 of its initial volume. Note: 1atm= 1.01 × 105 Pa. What is the work done by the gasDuring real expansion and compression processes in piston cylinder devices, it has been observed that gases satisfy the relationship PVn = C, where n and C are constant. Calculate the work done when a gas expands from 350 kPa and 0.03 m3, to a final volume of 0.2 m3, for the case where n = 1.5.
- 0.5 moles of cinnamaldehyde gas that has an initial volume of ten liters expands under the following conditions: 185°F and 800mmHg external pressure. a. How much work is done? Express your answer in L atm. b. Assuming that the container is cylindrical with a base radius of 10cm and can only expand vertically, how much kinetic energy does a single molecule possesses if it travels from base to base of the expanded cylinder in 10us? Express your answer in JA monatomic ideal gas expands from 1.30 m3 to 3.00 m3 at a constant pressure of 3.00 ✕ 105 Pa. Find the following. (a) Find the work done on the gas. J (b) Find the thermal energy Q transferred into the gas by heat. J (c) Find the change in the internal energy of the gas.A monatomic ideal gas expands from 1.90 m3 to 3.50 m3 at a constant pressure of 2.20 ✕ 105 Pa. Find the following. (a) Find the work done on the gas. J(b) Find the thermal energy Q transferred into the gas by heat. J(c) Find the change in the internal energy of the gas.
- 3. 0.5 moles of cinnamaldehyde gas that has an initial volume of ten liters expands under the following conditions: 185°F and 800mmHg external pressure.a. How much work is done? Express your answer in L atm.b. Assuming that the container is cylindrical with a base radius of 10cm and can only expand vertically, how much kinetic energy does a single molecule possesses if it travels from base to base of the expanded cylinder in 10μs? Express your answer in J. (Note that 1L atm=101.325J)In an adiabatic process, oxygen gas in a container is compressed along a path that can be described by the following pressure in atm as a function of volume V, with V0 = 1L : p = (3.0 atm)(V/V0 )−1.2 . The initial and finalvolumes during the process were 2 L and 1.5 L, respectively. Find the amount of work done on the gas.If a gas in a cylinder pushes back a piston against a constant opposing pressure of 2.97 × 105 pascals and undergoes a volume change of 0.484 m3, how much work will the gas do, expressed in joules?