Due to the scientific principle of specific heat (and the exact same mass), 10 grams of metal would absorb equal amounts of heat (thermal energy) with a greater change in temperature, since metals have a lower specific heat. Water has a s.h. of 1 cal/(g°C), considerably higher than metals. This is seen in climatology as well, since water moderates the temperature in coastal areas, preventing them from gaining or losing too much heat by absorbing significant changes themselves.
ice would have higher thermal energy than water.
Oceanic thermal energy is the heat energy that is stored by the water in the ocean.
Word equation:Water [at temp 0>100] + (thermal energy) => Water Vapour [at temp 100] + (thermal energy)Symbol equation:H20 (l) + (thermal energy) => H20 (g) + (thermal energy)Thermal energy is placed in brackets because it is not a substance. This is a physical reaction so not chemical bonding has occurred due to there being only one type of molecule and only heat energy.
Not exactly. Thermal means heat, which can be captured from many places. We can generate electricity from ocean thermal plants, for example, using the difference in temperature between surface and deep water. Geothermal energy is another kind of thermal, from deep under the ground, where we use the heat to turn water into steam and power an electricity turbine.
It will first condense and then solidify.
Evaporation
per kilogram they are the same,
Yes. When ice is converted to water, thermal energy is required. When the water is converted back to ice, the same amount of thermal energy is released.
To raise the temperature of water in a thimble of water from 0 to 100 requires a small amount of thermal energy. To do the same with a swimming pool would require putting a huge amount of thermal energy into the water comparatively speaking.
it depends on the water
Water has a high heat capacity, which can be described as "thermal inertia". That means that water can absorb a large amount of heat energy.
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
Yes, your body uses a thermal energy known as caloric energy called "calories." A calorie is the amount of thermal energy required to heat one gram of water by one degree centigrade.
Yes, the more substance you have, the slower the temperature change.
If you increase temperature you increase thermal energy.If you double the amount you have the temperature does not change but the thermal energy does.Temperature and thermal energy are the same since they both use kinetic energy. Temperature uses the thermal energy when the heat measures the average of the kinetic energy. The thermal energy uses the kinetic energy, when it's averged together with the kinetic enery and the others to make the thermal energy.==========================Answer #2:Wow !Temperature is to thermal energy as depth is to water.
specific heat is the amount of thermal energy needed to raise the temperature of an object. for example, the water on the beach and the sand on the shore are absorbing the same amount of thermal energy from the sun but the water (which has high specific heat) is cold, and the sand (with low specific heat) is very hot.
The quantity of a substance and its temperature determine the amount of energy it has. Unless both glasses of water have the same number of atoms exactly, there will be some variance in their thermal energy levels.
No, the thermal energy of any object is a multiple of its temperature (absolute), the specific heat of the material it is made of, and the mass of the material. So obviously a large pot contains more energy than a small one.