when cold and warm air are added in the same container it causes water.
It rises, because you have packed more atoms into the same space.
The meaning is that these two substances cannot react.
If you have a large container and the opening has a large cross section and the container is kept still, the liquid inside will become flat. It will be level. The liquid will remain level. If some liquid is added or removed the surface will soon become level again. That would not happen with a solid.
Yes, when a solid is transferred to a new container, its volume and mass remain the same, assuming no material is added or removed during the transfer. The solid's mass is a measure of the amount of matter it contains, and its volume is the space it occupies. Both properties are intrinsic to the solid itself and do not change simply due to a change in container.
small container
No, it can't have the same thermal energy. The hot water loses energy to the surroundings. Cold is an absence of energy, as energy is removed the water becomes cold.
Placing a rock in a container does not alter the volume of the container, although it does occupy some of that volume.
Greater than before, since the added air increases the total weight of the container.
no if there is no air in the container (a vacuum) to begin with the addition of air will add mass to the container. air weighs roughly .0807 lbs per cubic foot
A mixture is formed.
It starts bubbling then it explodes. -I think it would just become more pressurized, it depends how pressurized it was before. But yes, it would explode if it had too much pressure.Yes, it could explode (depending on the type of container), but the main point is that the pressure would increase. Pressure is defined as the number and force of collisions between the particles and the wall of the container. If you're adding more gas to the container, then you are increasing the number of particles in one space; therefore, they will collide more often with the container.
The temperature change of the water in the 1-liter container will be greater than that of the 2-liter container when the same quantity of heat is added. This is because temperature change is inversely proportional to the mass of the substance when heat is added, as described by the formula (Q = mc\Delta T), where (Q) is the heat added, (m) is the mass, (c) is the specific heat capacity, and (\Delta T) is the temperature change. Since the 1-liter container has less mass, it will experience a larger temperature increase.
The liquid to which you are referring is likely condensation - water. When water vapor in the air encounters something cold, such as a container with ice in it, the vapor tends to collect and condense into liquid water around the cold object. The same thing happens with a glass of ice water on a hot day.
Yes because the amount of liquid is still the same, nothing is added or taken away If the temperature and pressure are unchanged then the volume of the liquid is unchanged regardless of the container it is in.
It rises, because you have packed more atoms into the same space.
their magnitudes are added together, resulting in a stronger force
The meaning is that these two substances cannot react.