A NOR container is a passive insulated container. That means it does not have active temperature controller inbuilt. The temperature inside the container depends on the temperature outside the container and the item's original temperature when it put inside the container, and the time how long the container takes to arrive to the target location.
The insulation keeps the temperature steady inside the container only for so long, so for instance, if you put the container on Antarctica it would eventually reach the same temperature than outside the container.
The insulation, however, should be able to maintain above zero (celcius) inside the container throughout the entire trip, they are , first of all, made specially for the task.
Cooling a pressurized container will cause the internal pressure to decrease.This works in reverse too. Depressurizing a pressurized container will lower the internal temperature (and by conduction, the temperature of the container itself). This is why ice often forms around propane gas cylinders after extended use.
The manipulated variable is what you change (the shape of the container) The responding variable is the result (the temperature at which the water in the container freezes). (Don't forget the time factor!)
When the temperature of a gas increases, the Kinetic Energy of the particles increases. This means that they move faster and apply a greater force when they collide with the walls of the container. As pressure is the force per unit area on the container, the pressure increases. This is Gay-Lussac's "Pressure Temperature" Law: "P = kT".
This depends upon many factors: temperature, pressure, container geometry, etc.
when the particle do not collide with the wall of the container or with the other particles is called free settling the suspended particles in the medium do nor effect it and when the particle collide with the other particles and with the wall of the container an d collides with the suspended particles is called hindered settling
NOR (Non-Operating Reefer) container is a type of shipping container that is not equipped with a refrigeration unit. It is used for transporting cargo that does not require temperature control. NOR containers are typically used for items that are not sensitive to temperature variations, such as non-perishable goods or dry cargo.
A 40' NOR container (Not 40' NOR H.C.) has a capacity of 57.8 CBM.
A 40 NOR container is a type of container that is 40 feet in length and has no roof, commonly used for transporting oversized cargo that cannot fit in standard enclosed containers. NOR stands for "Non-Operating Reefer," indicating that it is a refrigerated container that is not in working order.
At normal temperature and pressure Xenon is a gas and, as with any gas, it does not have definite shape nor pressure.
Yes. Cheese will mold at room temperature, even if it is in a container. It will mold faster at room temperature than it will in the refrigerator.
The container that has more thermal energy would be the one with a higher temperature. Thermal energy is directly proportional to temperature, so the container with a higher temperature would have more thermal energy.
No, shaking pebbles in a glass container will not cause the temperature to rise. The kinetic energy transferred from the motion of the pebbles will not generate enough heat to significantly affect the temperature of the container.
You think probable to a Dewar container.
No, because the gas is in a rigid steel container, its volume cannot increase as the temperature increases (assuming the steel does not deform). Instead, the pressure of the gas inside the container will increase. Of course, if the pressure is high enough, the container will explode, lowering the pressure and causing the gas to expand.
The container may not be the same temperature as the solution (especially if the container is not a very good heat conductor). Thus, having the bulb of the thermometer touch the container may give an inaccurate reading.
neither the shape nor the volume
A decrease in gas pressure in a closed container could be caused by a decrease in temperature, which reduces the average kinetic energy of the gas molecules, leading to fewer collisions with the container walls. It could also be caused by a leak in the container allowing gas to escape, or by a chemical reaction that consumes gas molecules.