A1. An ideal gas is slowly compressed at a constant pressure of
from 2.5
L to 1.0 L. Heat is then added to the gas, holding the volume
constant, until its pressure reaches 1.5×10^5 Pa. How much total
work (J) is done on the gas?
Homework Answers
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A1. An ideal gas is slowly compressed at a constant pressure of
from 2.5
L to...
A1. An ideal gas is slowly compressed at a constant pressure of from 2.5 L to...
A1. An ideal gas is slowly compressed at a constant pressure of
from 2.5 L to 1.0 L. Heat is then added to
the gas, holding the volume constant, until its pressure reaches
. How much total work (J) is done on the
gas?
1.0 × 105 Pa 1.0 × 105 Pa
WORK DONE BY AN IDEAL GAS Ivariant of FSU Physies libl: An ideal monoatomic gas is...
WORK DONE BY AN IDEAL GAS Ivariant of FSU Physies libl: An ideal monoatomic gas is slowly compressed at a constant pressure of 1.80 atm from 13.0 L to 3.00 L. This process is represented in the Figure as the path B to D. Heat is then added to the gas, holding the volume constant, and the pressure and the temperature are allowed to rise (line DA) until the temperature reaches its original value (TA- Ta). PART A: Calculate the...
1. A gas is compressed slowly at a constant pressure of 150 kPa from an initial...
1. A gas is compressed slowly at a constant pressure of 150 kPa from an initial volume of 700 L to a final volume of 100 L. How much work is done by the gas in this process? Explanation: this constant pressure process is possible for a gas that is cooling off Hint: carefully consider the sign of your answer, the definition of work, and the force vectors Draw the picture to help understand it Answer: absolute value of the...
4 A piston is filled with 75.0 mol of an ideal gas at a pressure of...
4
A piston is filled with 75.0 mol of an ideal gas at a pressure of 3.40x10Pa at a temperature of 1250 K. While keeping the pressure constant, the volume of the piston is reduced to 0.530 m. The gas is then allowed to expand slowly while keeping the temperature constant until the volume reaches 4.16 m2 The gas is then compressed rapidly until the gas reaches its original state. Complete the chart below. Do not include units in your...
Suppose an ideal monoatomic gas at initial temp of 475 K is compressed from 3 L...
Suppose an ideal monoatomic gas at initial temp of 475 K is compressed from 3 L to 2 L while its pressure remains constant at 1.00 times 105 Pa. (1L = 10 - 3 m3) Find: Work done on the gas DeltaU Energy transferred by heat Q.
12) A container of Helium, a monatomic ideal gas, starts at P, and V. The pressure...
12) A container of Helium, a monatomic ideal gas, starts at P, and V. The pressure of the gas is first increased at a constant volume to a pressure P, and then the volume of the gas is increased at the pressure P, until it reaches Vr. What is the total heat input into the gas during this two-step process? 12) P, = 1.6 x 109 Pa, Vi = 2.5 L, P, = 3.9 x 105 Pa, V, = 4.5...
An ideal gas with ?=1.4 occupies 5.5L at 300 K and 150kPa pressure and is compressed...
An ideal gas with ?=1.4 occupies 5.5L at 300 K and 150kPa pressure and is compressed adiabatically until its volume is 2.0 L. It's then cooled at constant pressure until it reaches 300 K, then allowed to expand isothermally back to state A. A)Find the net work done on the gas B) Find the minimum volume reached.
Consider an ideal gas that initially has a pressure of 1909kPa and a volume of 11.0L....
Consider an ideal gas that initially has a pressure of 1909kPa and a volume of 11.0L. The gas in compressed at constant pressure to a volume of 7.00L. Heat is then added at constant volume until the pressure reaches 3 ⇥ 103kPa. Draw the process on a P-V diagram and calculate: the work done; the change in internal energy; the heat flow (into/out of the gas)
1)A gas is compressed at a constant pressure of 0.800 atm from 8.00 L to 1.00...
1)A gas is compressed at a constant pressure of 0.800 atm from
8.00 L to 1.00 L. In the process, 410 J of energy leaves the gas by
heat. (a) What is the work done on the gas? J
(b) What is the change in its internal energy? J
2) A gas increases in pressure from 2.00 atm to 6.00 atm at a
constant volume of 1.00 m3 and then expands at constant
pressure to a volume of 3.00 m3...
d. Two moles of an ideal gas are compressed in a cylinder at a constant temperature...
d. Two moles of an ideal gas are compressed in a cylinder at a constant temperature of (75°C) until the original pressure, (2x10$ Pa), is tripled. Given that (R = 8.314 J/mol-K), Find: (1) The amount of work done. () The final volume of the gas.
A1. An ideal gas is slowly compressed at a constant pressure of
from 2.5 L to 1.0 L. Heat is then added to
the gas, holding the volume constant, until its pressure reaches
. How much total work (J) is done on the
gas?
1.0 × 105 Pa 1.0 × 105 Pa
WORK DONE BY AN IDEAL GAS Ivariant of FSU Physies libl: An ideal monoatomic gas is slowly compressed at a constant pressure of 1.80 atm from 13.0 L to 3.00 L. This process is represented in the Figure as the path B to D. Heat is then added to the gas, holding the volume constant, and the pressure and the temperature are allowed to rise (line DA) until the temperature reaches its original value (TA- Ta). PART A: Calculate the...
1. A gas is compressed slowly at a constant pressure of 150 kPa from an initial volume of 700 L to a final volume of 100 L. How much work is done by the gas in this process? Explanation: this constant pressure process is possible for a gas that is cooling off Hint: carefully consider the sign of your answer, the definition of work, and the force vectors Draw the picture to help understand it Answer: absolute value of the...
4
A piston is filled with 75.0 mol of an ideal gas at a pressure of 3.40x10Pa at a temperature of 1250 K. While keeping the pressure constant, the volume of the piston is reduced to 0.530 m. The gas is then allowed to expand slowly while keeping the temperature constant until the volume reaches 4.16 m2 The gas is then compressed rapidly until the gas reaches its original state. Complete the chart below. Do not include units in your...
Suppose an ideal monoatomic gas at initial temp of 475 K is compressed from 3 L to 2 L while its pressure remains constant at 1.00 times 105 Pa. (1L = 10 - 3 m3) Find: Work done on the gas DeltaU Energy transferred by heat Q.
12) A container of Helium, a monatomic ideal gas, starts at P, and V. The pressure of the gas is first increased at a constant volume to a pressure P, and then the volume of the gas is increased at the pressure P, until it reaches Vr. What is the total heat input into the gas during this two-step process? 12) P, = 1.6 x 109 Pa, Vi = 2.5 L, P, = 3.9 x 105 Pa, V, = 4.5...
1)A gas is compressed at a constant pressure of 0.800 atm from
8.00 L to 1.00 L. In the process, 410 J of energy leaves the gas by
heat. (a) What is the work done on the gas? J
(b) What is the change in its internal energy? J
2) A gas increases in pressure from 2.00 atm to 6.00 atm at a
constant volume of 1.00 m3 and then expands at constant
pressure to a volume of 3.00 m3...
d. Two moles of an ideal gas are compressed in a cylinder at a constant temperature of (75°C) until the original pressure, (2x10$ Pa), is tripled. Given that (R = 8.314 J/mol-K), Find: (1) The amount of work done. () The final volume of the gas.
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