Heat is measured in joules and the heat is aka kinetic energy.
In a balloon, gas particles move rapidly and randomly in all directions due to their kinetic energy. As the temperature increases, their energy and speed also increase, causing more frequent collisions with the balloon's inner walls. This movement creates pressure inside the balloon, which keeps it inflated. When the balloon is squeezed or the external pressure changes, the particles adjust their movement accordingly, leading to changes in shape or volume.
by vibrating inside of the container that the liquid is held inside in
Yes, atoms contain subatomic particles.
The kinetic theory of matter explains insulation by stating that heat transfer occurs through the vibration and movement of particles. Insulation materials, such as those with low thermal conductivity, work by reducing the movement of particles, limiting the transfer of heat energy. This creates a barrier that helps to maintain desired temperatures inside buildings or around systems.
everywhere.
The direction of a magnetic field affects the movement of charged particles by exerting a force on them. Inside the page, the particles will move in a circular path perpendicular to the field, while outside the page, they will move in the opposite direction.
The movement in and out of a cell is called active transport. Liquids inside cells contain different substances and there is movement in and out to maintain a proper balance of ions and molecules.
When the temperature increases, the particles of the liquid inside a thermometer also expand due to thermal expansion, causing the liquid to rise in the narrow tube of the thermometer. This increase in volume of the liquid is what is typically measured as an increase in temperature on the thermometer scale.
Thermal Energy. Heat in the substance is measured by temperature. The movement causes it to give off heat. Ex. The TV is on too long. You touch it. It feels warm. The electric energy inside is giving off thermal energy. It's giving off heat.
The particles inside the balloon moved randomly due to the kinetic energy they possess. The temperature of the gas inside the balloon affects the speed at which the particles move. When the gas inside the balloon is heated, the particles move faster and spread out, causing the balloon to expand.
Depends on the container of the "air particles" and what you mean by "what happens." If it is inside a container that can not expand, then the pressure increases. If it is inside a container that can expand (or is just atmospheric air) then the volume increases. (Pressure * Volume = n * R * change in temperature) On the atomic level, the atoms or molecules (depending on the gas) begin to move more quickly as their kinetic energy increases.
Yes, only if you want it to get to the same entity/person as is on the inside.
The correct dimensions are measured from inside post to post for width, and from the surface to the inside of the crossbar for height
A Geiger-Muller counter is commonly used to detect radiation by measuring ionizing radiation particles that interact with the gas inside the device, creating an electric pulse that can be counted and measured.
Tube is measured by outside diameter, pipe is measured by inside diameter.
by vibrating inside of the container that the liquid is held inside in
Yes, atoms contain subatomic particles.