Rank the phases of matter from the one with the least kinetic energy to the greatest kinetic energy for the particles in the substance.(1 point)
Responses
Least gas
↓
liquid
Greatest solidLeast gas downarrow liquid Greatest solid
Least gas
↓
solid
Greatest liquidLeast gas downarrow solid Greatest liquid
Least solid
↓
liquid
Greatest gasLeast solid downarrow liquid Greatest gas
Least solid
↓
gas
Greatest liquid
5 answers
Least solid downarrow gas Greatest liquid
Use the graph and diagram to answer the question.
The vertical axis is labeled, temperature (degrees C), and ranges from a point below 0 to 100 degrees C. The horizontal axis is labeled, time of heating. The graph shows a line that starts from the origin and slopes upward as the ice heats up until 0 degrees C. The line becomes parallel to the horizontal axis for some time as the ice melts and gets converted to water. The line starts sloping upward again as the water heats up to 100 degrees C. The line again becomes parallel to the horizontal axis as the water boils into steam.
Which option describes the particles of water as the liquid water actively boils?
(1 point)
Responses
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and the same temperature during boiling.
The particles will lose kinetic energy and decrease temperature during boiling.
The particles will lose kinetic energy and increase temperature during boiling.
What does temperature measure?(1 point)
Responses
the heat of the particles
the heat of the particles
the total energy of the particles
the average kinetic energy of the particles
the empty space between the particles
Thermal Energy Quick Check
4 of 44 of 4 Items
Question
Use the graph and diagram to answer the question.
The vertical axis is labeled, temperature (degrees C), and ranges from a point below 0 to 100 degrees C. The horizontal axis is labeled, time of heating. The graph shows a line that starts from the origin and slopes upward as the ice heats up until 0 degrees C. The line becomes parallel to the horizontal axis for some time as the ice melts and gets converted to water. The line starts sloping upward again as the water heats up to 100 degrees C. The line again becomes parallel to the horizontal axis as the water boils into steam.
Which is the best interpretation of the two flat portions of the graph?
(1 point)
Responses
These show where temperature is 0ºC.
These show where thermal energy does not exist.
These show where changes of state are occurring.
These show where kinetic energy is increasing.
The vertical axis is labeled, temperature (degrees C), and ranges from a point below 0 to 100 degrees C. The horizontal axis is labeled, time of heating. The graph shows a line that starts from the origin and slopes upward as the ice heats up until 0 degrees C. The line becomes parallel to the horizontal axis for some time as the ice melts and gets converted to water. The line starts sloping upward again as the water heats up to 100 degrees C. The line again becomes parallel to the horizontal axis as the water boils into steam.
Which option describes the particles of water as the liquid water actively boils?
(1 point)
Responses
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and the same temperature during boiling.
The particles will lose kinetic energy and decrease temperature during boiling.
The particles will lose kinetic energy and increase temperature during boiling.
What does temperature measure?(1 point)
Responses
the heat of the particles
the heat of the particles
the total energy of the particles
the average kinetic energy of the particles
the empty space between the particles
Thermal Energy Quick Check
4 of 44 of 4 Items
Question
Use the graph and diagram to answer the question.
The vertical axis is labeled, temperature (degrees C), and ranges from a point below 0 to 100 degrees C. The horizontal axis is labeled, time of heating. The graph shows a line that starts from the origin and slopes upward as the ice heats up until 0 degrees C. The line becomes parallel to the horizontal axis for some time as the ice melts and gets converted to water. The line starts sloping upward again as the water heats up to 100 degrees C. The line again becomes parallel to the horizontal axis as the water boils into steam.
Which is the best interpretation of the two flat portions of the graph?
(1 point)
Responses
These show where temperature is 0ºC.
These show where thermal energy does not exist.
These show where changes of state are occurring.
These show where kinetic energy is increasing.
These show where changes of state are occurring.
Which option describes the particles of water as the liquid water actively boils?
(1 point)
Responses
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and the same temperature during boiling.
The particles will have the same average kinetic energy and the same temperature during boiling.
The particles will lose kinetic energy and decrease temperature during boiling.
The particles will lose kinetic energy and decrease temperature during boiling.
The particles will lose kinetic energy and increase temperature during boiling.
(1 point)
Responses
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and a decrease in temperature during boiling.
The particles will have the same average kinetic energy and the same temperature during boiling.
The particles will have the same average kinetic energy and the same temperature during boiling.
The particles will lose kinetic energy and decrease temperature during boiling.
The particles will lose kinetic energy and decrease temperature during boiling.
The particles will lose kinetic energy and increase temperature during boiling.
The particles will have the same average kinetic energy and the same temperature during boiling.