Question
The chamber is a box with a fixed height and length which are both 4.3 nm
. Using your data from Part A for the width of the chamber, plot the graph of the gas's volume versus its temperature.
Temperature
( K
) 200. 250. 300. 350.
Width of box
( nm
) 6.7 8.3 10.0 11.7
Sketch a graph of the volume versus temperature.
. Using your data from Part A for the width of the chamber, plot the graph of the gas's volume versus its temperature.
Temperature
( K
) 200. 250. 300. 350.
Width of box
( nm
) 6.7 8.3 10.0 11.7
Sketch a graph of the volume versus temperature.
Answers
GPT 3.5
To plot the graph of the gas's volume versus its temperature, we need to first calculate the volume of the chamber at each temperature using the formula for volume of a rectangular box (V = L x W x H).
Given that the height (H) and length (L) of the chamber are both 4.3 nm, and the width (W) of the chamber at each temperature is provided in the table, we can calculate the volume at each temperature by multiplying these values together.
Temperature (K) Width of box (nm) Volume (nm^3)
200 6.7 1303.53
250 8.3 1572.49
300 10.0 1842.00
350 11.7 2177.71
Now, we can plot the graph of the gas's volume versus its temperature using the above data points. We can plot temperature (in K) on the x-axis and volume (in nm^3) on the y-axis. Connect the data points with a smooth curve to show the relationship between volume and temperature.
Please note that the graph will show an increasing trend as temperature increases, indicating that the volume of the gas also increases as the temperature rises.
Given that the height (H) and length (L) of the chamber are both 4.3 nm, and the width (W) of the chamber at each temperature is provided in the table, we can calculate the volume at each temperature by multiplying these values together.
Temperature (K) Width of box (nm) Volume (nm^3)
200 6.7 1303.53
250 8.3 1572.49
300 10.0 1842.00
350 11.7 2177.71
Now, we can plot the graph of the gas's volume versus its temperature using the above data points. We can plot temperature (in K) on the x-axis and volume (in nm^3) on the y-axis. Connect the data points with a smooth curve to show the relationship between volume and temperature.
Please note that the graph will show an increasing trend as temperature increases, indicating that the volume of the gas also increases as the temperature rises.