A gas at 100 kPa occupies 3 liters and undergoes an isobaric process until it reaches 2 liters. If its internal energy increased by 300 J, determine the energy in the form of heat transferred in that process. a) 400 J b) 200 J c) 99 700 J d) 100 300 J
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A gas at 100 kPa occupies 3 liters and undergoes an isobaric process until it reaches 2 liters. If its internal energy increased by 300 J, determine the energy in the form of heat transferred in that process.
a) 400 J
b) 200 J
c) 99 700 J
d) 100 300 J
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- #3. You are tasked with both increasing the volume and decreasing the pressure of an ideal gas via a two step process. Would the system do more work by A)doing an isobaric expan- sion followed by an isochoric step or B) doing the isochoric step followed by the isobaric expansion? Use a sketch to illustrate and explain your answer.P(105 pa) 3 1 10000 V(cm³) 1.2 Mol of nitrogen an ideal diatomic gas is undergoing the process shown find a) The work done by the gas b) The heat added or removed and c) its change in internal energy38) In an adiabatic compression, 200 J of work is done on a gas. What is the change in internal (thermal) energy of the gas during this compression? A) -200 J B) 100 J C) 200 J D) OJ
- A gas is taken through the cyclic process shown in the figure. For one complete cycle, how much heat Q is transferred to the system given the points of interest shown in the chart? Pressure (Pa) Volume (m³) P = 3440 И 3 3.20 P3 9270 V2 7.35 Volume (m) 2. 3. Pressure (Pa)5 Please help thank youFind the total change in the internal energy of a gas that is subjected to the following two-step process. In the first step the gas is made to go through isochoric heating until it gains 5863 J and its pressure is 3.32 x 10° Pa. In the second step it is subjected to isobaric adiabatic compression until its volume decreases by 7.50 x 10-3 m3. What is the total change in internal energy of this gas? Additional Materials O Reading Cs Scanned with CamScanner Submit Answer
- Find the total change in the internal energy of a gas that is subjected to the following two-step process. In the first step the gas is made to go through isochoric heating until it gains 5963 J and its pressure is 2.72 105 Pa. In the second step it is subjected to isobaric adiabatic compression until its volume decreases by 7.30 10-3 m3. What is the total change in internal energy of this gas?A system undergo a process consisting of the following two steps Step 1: The system absorbs 48 J of heat while 24 J of work is done on it Step 2: The system absorbs 24 J of heat while performing 48 J of work Calculate E for the overall process.question in photo please