No, only thermal energy is the same if the same amount of water is in the glass.
Would two glasses of water have the same thermal energy?
Two glasses of water have the same thermal energy . ... They must not have the same temperature to have the amount of thermal energy, it also depends on how many particles it contains because one glass may have more water.
Which has more thermal energy a lake or a glass of water?
Heat is always the transfer of energy from an object at a higher temperature to an object at a lower temperature. ... A glass of water can have the same temperature as Lake Superior, but the lake has far more thermal energy because the lake contains many more water molecules.
Which glass of water has more thermal energy?
Thermal energy is a form of kinetic energy. Examples of Thermal Energy: 1. A 12 ounce glass of water at 70 degrees has more thermal energy than a 12 ounce glass of water at 60 degrees.
Does the amount of water affect thermal energy?
Specific heat is defined by the amount of heat needed to raise the temperature of 1 gram of a substance 1 degree Celsius (°C). Water has a high specific heat , meaning it takes more energy to increase the temperature of water compared to other substances.
Does 4 cups of boiling water have the same thermal energy as 2 cups of boiling water?
Does 4 cups of boiling water have the same thermal energy as 2 cups of boiling water? Temperature is the average kinetic energy of particles of matter. Thermal energy is the total kinetic energy of particles of matter. ... It's determined that both cups of water have the same amount of thermal energy .
Does hot or cold water have more thermal energy?
no; a hot object always has more thermal energy than a similar cold object . (thermal energy is the measure of the total energy of all the molecules in an object. the temperature (hot or cold) measures the amount of energy per molecule.
What two things does thermal energy depend on?
The thermal energy of an object depends on its temperature and mass . The higher the temperature of a substance, the more thermal energy it has. For the same temperature, a substance with a higher mass will also have more thermal energy.
What are 2 examples of thermal energy?
- The warmth from the sun.
- A cup of hot chocolate*
- Baking in an oven.
- The heat from a heater.
Which will have the highest thermal energy?
Matter in its gas state has the most thermal energy than when it is a solid or a liquid. Because gasses have more thermal energy than others, they move differently than others.
Does more water mean more thermal energy?
However, temperature is the average kinetic energy of particles of matter, whereas thermal energy is the total kinetic energy of particles of matter. ... Although the water in the tub has a much lower temperature, it has greater thermal energy .
Which warms up faster land or water?
It takes less energy to change the temperature of land compared to water. This means that land heats and cools more quickly than water and this difference affects the climate of different areas on Earth.
What has more thermal energy a hot cup of coffee or a lake?
There is far more energy in a cold lake than in a cup of hot coffee, just because there is far more water in the lake.
Which would have more thermal energy a cup of room temperature water or a cup of cold water?
Why? The cup with hot boiling water has more thermal energy than the cup with freezing cold water because the molecules are moving faster, which equals MORE total kinetic energy.
Which contains more heat thermal energy a coffee cup of boiling water or a bathtub of room temperature water?
Which contains more heat, a coffee cup of boiling water or a bathtub of room temperature water? 1. 273.15 – 4.22 = 268.93 °C 2. ... The bathtub has more heat, but a lower temperature.
What happens to a hot cup of tea as it reaches thermal equilibrium?
Long experience tells us that, over time, the tea will get cooler and the surrounding air will get warmer until the air and the cup of tea reach thermal equilibrium. ... The result is that the decrease in the internal energy of the cup of tea is equal to the increase in the internal energy of the air .
