Please look at the picture... 

0.05 mole of helium is expanded from 1 L to 2 L while pressure is kept constant at 1 atm, as demonstrated in the PV diagram in the picture. 

Question A: What is the pressure of the gas in this process? Please answer in N/m^2

Question B: What is the initial temperature of the gas? Please answer in kelvin 

Question C: What is the final temperature of the gas? Please answer in kelvin 

Transcribed Image Text:

### Explanation of the Graph **Graph Title**: Pressure-Volume Relationship **Axes**: - **Y-axis (Vertical)**: Represents pressure \( P \) in atmospheres (atm). The scale is marked at intervals of 0.5, ranging from 0 to 1 atm. - **X-axis (Horizontal)**: Represents volume \( V \) in liters (L). The scale is marked at intervals of 1, ranging from 0 to 3 L. **Graph Description**: - The graph displays a rectangular plot with solid lines on the sides and a dashed line at the top connecting the points. - The rectangle starts at 1 L on the x-axis and ends at 2 L, indicating that the volume changes between these two points. - The pressure remains constant at 1 atm throughout this change in volume, as indicated by the horizontal dashed line. - This is an isobaric process, where the pressure remains constant while the volume changes. This graph visually represents how the pressure of a system remains constant during a specific change in volume, a common scenario in thermodynamics.