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A student conducts an investigation to show the relationship between temperature and kinetic energy in one phase of matter. What would the graph of this relationship look like?

User Martin Wittemann
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2 Answers

22 votes
22 votes

Final answer:

The graph depicting the relationship between temperature and kinetic energy in a substance's phase would show a direct proportionality, with temperature increasing linearly with kinetic energy. Both total kinetic energy and total momentum would remain constant over time if no external forces influence the system.

Step-by-step explanation:

The graph that shows the relationship between temperature and kinetic energy in a single phase of matter would be a straight line, indicating that there is a direct proportionality between the two variables. This is because when the temperature of a substance increases, the average kinetic energy of its molecules also increases. This relationship can be understood when considering that temperature is a measure of the average kinetic energy per molecule in a system. Therefore, if all other factors remain constant, the increase in temperature will result in increased kinetic energy of the molecules.

Similarly, a graph plotting the total kinetic energy of a collection of particles against time, assuming no energy is lost or gained from outside the system, would show a constant value over time. This is based on the principle of conservation of energy, which states that in an isolated system, the total energy remains constant. The total momentum of a system is also conserved, meaning that if no external forces act upon the system, the total momentum graph against time will also be a constant line.

User Nirajan Singh
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3.0k points
12 votes
12 votes

Answer:

exponential growth

Step-by-step explanation:

they will rise

User JdeMello
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3.1k points