No,it is actually the other way around.Particles in a hot object move faster than particles do in a colder object.
If those two objects are in contact of one another then energy transfer would be rapid. But if those two objects are far apart then energy transfer will be much slower. It is the heat energy that transfers from warmer object to a cooler object.
The objects that absorb heat most readily are those with more of the following qualities:the object is largethe object has a large surface areathe object is blackthe object has a matte finish (it is not shiny)the object is made from a conductor such as metalthe object is much colder than its surroundingsthe object has a high specific heat capacity
It doesn't. It's the other way round. Particles in the hotter object are vibrating faster than those in the cooler one. When they collide with each other energy is shared, increasing the temperature of the cooler object and decreasing that of the hotter one.
Evaporation is a cooling process. The water molecules that escape the surface of the bag were those that were fast moving. If you remove the fast moving molecules, the ones left behind are slower and, thereby, colder. The faster you remove them the colder the aggregate becomes. Hanging the bag on the front of a fast moving car is a good way to remove them quickly.
a magnetic object are those affected by magnetic field and are attracted to it.
First radiation is the transmission of high energy particles. when you apply radiation to an object the energy from those particles is transmitted into the object. this additional energy is transmitted into the particle by "bumping" into the atoms or molecules that make up this object. by hitting those atoms with these fast moving particles you transmit that energy into the atoms of the object. this causes the atoms to move much faster than they were before. and the movement of these atoms contributes to the temperature of the object
If those two objects are in contact of one another then energy transfer would be rapid. But if those two objects are far apart then energy transfer will be much slower. It is the heat energy that transfers from warmer object to a cooler object.
The motion of particles in a solid are much slower than those in the gas. Gaseous particles are very energetic and highly kinetic.
The objects that absorb heat most readily are those with more of the following qualities:the object is largethe object has a large surface areathe object is blackthe object has a matte finish (it is not shiny)the object is made from a conductor such as metalthe object is much colder than its surroundingsthe object has a high specific heat capacity
Conduction transfers heat when objects are in contact. The particles of the hotter substance are moving fast. They bump into those of the colder one and transfer part of their energy.
These waves are slower than those that originate at the focus.
The dispersed particles of a suspension are larger than the particles of a colloid.
No matter whether there is limited energy, particles are still moving. When they are heated, they move very fast and rapidly. When they are cooled, they tend to slow down and move slower. That is because heat is energy adn when something is cooled, they lose their heat, basically, they lose their energy and particles move slow.
It doesn't. It's the other way round. Particles in the hotter object are vibrating faster than those in the cooler one. When they collide with each other energy is shared, increasing the temperature of the cooler object and decreasing that of the hotter one.
The waves that are slower that those that originate at the focus are called secondary waves or S-waves. They are shear waves that are transverse in nature.
Those particles are called, "Dust".
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