The particles will begin to lock into place.
-- If the energy of the particle is its kinetic energy, then removing kinetic energy certainly slows it down. -- If the energy of the particle is its heat energy, then that too is nothing more than the kinetic energy of its molecules. Remove heat energy from it, and the average kinetic energy of its molecules ... along with their average speed ... decreases. -- If an object started out high above the ground and then fell to the ground, it gains speed constantly while it's falling. This is not a counterexample of losing energy, since the falling object doesn't lose any energy ... it just trades potential for kinetic. So it doesn't belong in this discussion at all.
Nothing, the SHC refers to the amount of energy (joules) required to raise the temperature of 1 kg of the substance by 1 degree celcius
Energy cannot be created or destroyed, but it can be transferred from one form to another. So, it is possible to add or remove energy by converting it between different types, such as kinetic, potential, or thermal energy.
Thermal energy basically is heat. Thermal energy (heat) can change a solid to a liquid state is called melting. The change from a liquid to a solid is freezing. The change from a liquid to a gas is known as vaporization. The opposite of vaporization is condensation. So yeah, thermal energy affects any state of a substance.
example 51 = 1/2 5 v2so 51 / (1/2 5) = your squared51 / (2.5) = 20.4square root of 20.4 is your velocityhope this helps, can say if it's 100% correct but i tried to work this out myself and haven't got it wrong yet after a few trialstry it on this one, simply remove the allready know 18 (v)...your answer should equal what the v2 equals, then square root that number for velocityEk = (1/2 80) (182) = 12960
A loss of kinetic energy in the atoms or molecules of a sample of matter will result in the cooling of the sample. That sample will get colder as remove thermal energy from it. The atoms/molecules of a substance have kinetic energy associated with them. This kinetic energy is the result of atomic and/or molecular motion. As a sample of matter cools, the atoms and/or molecules will lose mobility. Loss of mobility and vibrational energy, which are forms of kinetic energy, will become apparent when thermal energy is removed from the sample.
To freeze a substance, you need to remove heat energy from it. This can be achieved through processes like refrigeration, where the substance is exposed to lower temperatures that cause it to release its heat energy, leading to freezing. External cooling methods, such as placing the substance in a freezer or using an ice bath, can also help to remove heat energy and freeze the substance.
-- If the energy of the particle is its kinetic energy, then removing kinetic energy certainly slows it down. -- If the energy of the particle is its heat energy, then that too is nothing more than the kinetic energy of its molecules. Remove heat energy from it, and the average kinetic energy of its molecules ... along with their average speed ... decreases. -- If an object started out high above the ground and then fell to the ground, it gains speed constantly while it's falling. This is not a counterexample of losing energy, since the falling object doesn't lose any energy ... it just trades potential for kinetic. So it doesn't belong in this discussion at all.
To decrease the kinetic energy of an object, you can decrease its velocity by slowing it down. To decrease the potential energy of an object, you can lower its height or remove any external forces acting on it.
Nothing, the SHC refers to the amount of energy (joules) required to raise the temperature of 1 kg of the substance by 1 degree celcius
Mechanical energy is transformed into kinetic energy in a washing machine as it agitates, spins, and pumps water during the washing and rinsing cycles. This kinetic energy is used to clean the clothes and remove dirt and stains.
Energy cannot be created or destroyed, but it can be transferred from one form to another. So, it is possible to add or remove energy by converting it between different types, such as kinetic, potential, or thermal energy.
You freeze the substance! (You remove energy from the system.)
because they do Molecules move firstly due to their own kinetic energy. On addition of heat energy is now present in the environment for the molecules to use,so they use it.This energy is used as kinetic energy and the molecules can therefore move faster than they normally would. Once you remove the source of the extra energy from the system the molecules go back to moving in their natural momentum.
It might cool another fraction of a degree (to -273.15 deg C, approx). No further cooling can take place since at that temperature, there is no longer any atomic vibrational energy left to remove from the substance and so no means to lower the temperature.
When thermal energy is removed from a gas, its temperature decreases and the gas molecules slow down, leading to a decrease in pressure. If enough thermal energy is removed, the gas can undergo a phase change to liquid or solid form, depending on the initial conditions and the gas properties.
When thermal energy is removed from particles in matter, they lose kinetic energy and slow down. This can cause them to arrange into a more ordered structure, leading to a decrease in volume as the particles move closer together. In extreme cases, removal of thermal energy can result in a phase change, such as from a liquid to a solid.