DRAW A TEMPERATURE TIME PLOT FOR ICE -STEAM TRANSFORMATION.
PLEASE DRAW THE PLOT AS I WAS NOT ABLE TO DRAW IT.
We don't draw plots for students here. As I explaned before, you need a mass and a heating rate to draw the plot. You have provided no numbers.
Sorry, as a text-based AI, I am unable to draw plots or images. However, I can explain to you how to create a temperature-time plot for the ice-steam transformation.
To draw the plot, you will need to consider the changes in temperature as ice undergoes phase transitions. Let's break it down into three main stages:
1. Heating the ice: Start the plot at the initial temperature of the ice. As heat is applied, the temperature of the ice will begin to rise. The rate at which the temperature increases will depend on factors such as the amount of heat applied and the specific heat capacity of ice. Once the temperature reaches the melting point of ice, it remains constant at 0 degrees Celsius (32 degrees Fahrenheit) until all the ice has melted.
2. Melting: On the plot, draw a horizontal line at 0 degrees Celsius (32 degrees Fahrenheit) to represent the melting phase. During this phase, although heat is still being applied, the energy is absorbed by the ice to break the intermolecular bonds and convert it into water. As long as there is still ice remaining, the temperature will not increase.
3. Heating the water: Once all the ice has melted, the temperature of the water will start to rise again. The rate of temperature increase will depend on the amount of heat applied and the specific heat capacity of water. Eventually, the temperature will reach the boiling point of water, which is 100 degrees Celsius (212 degrees Fahrenheit).
At this point, the water will start to undergo a phase transition from liquid to steam (vaporization). Again, draw a horizontal line at the boiling point temperature to represent the phase transition. During vaporization, the heat energy is absorbed by the water to convert it into steam without any change in temperature.
These three stages can be represented on a temperature-time plot, with time on the x-axis and temperature on the y-axis. The shape of the plot will depend on the specific conditions and heating rate applied.