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A student notices that an inflated balloon is larger when it is warmed by a lamp. What caused the balloon to become larger?
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
As the sun shines during the day, it is able to cover a large radius of land and water in all directions with its heat. How is this best explained?
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
How does the melting point of 100 grams of an element compare to melting point of 50 grams of that same element?
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
An archaeologist walks deep into a completely dark cave and feels the walls, noticing that they are cool. He then shines his flashlight and notices the wall is beginning to feel warmer. How can this most likely be explained?
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
How does the density of a tree in its infancy at a mass of 10 grams compare to its density when it is fully grown and 600 grams.
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
What difference is most obvious when comparing two atoms that do not represent the same element?
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
Which best describes the relationship between the temperature of a material and electromagnetic radiation?
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
Which of the following statements most accurately describes the relationships between temperature and the states of matter?
The density will be the same because density is a constant proportion which measures the amount of mass per unit of volume
Materials generally become warmer through the absorption of light because light when transferred will emit heat.
Rays of heat come into contact with particles in the atmosphere and then bounce in different directions by heat scattering
atoms of different elements will have an obvious difference in their mass due to a different number of subatomic particles
The walls of the cave were warmed through the process of radiation because a light when shined always gives off heat
The heat from the lamp caused the particles of the balloon to expand, thus making it larger.
The melting point is the same for both, but 50 grams of the element will melt first since it is the lesser amount
A substance's state of matter can change in response to a change in temperature
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