Brownian motion.
Clean air will fill the container it is placed in, but it does not take on the shape of the container like a liquid would. Air will evenly distribute itself within the container based on pressure and temperature.
Carmine dye particles move through diffusion, which is the process of particles spreading out evenly in a solution due to their random motion. In a liquid medium, the carmine dye particles will move from an area of high concentration to an area of low concentration until they are evenly distributed.
Gases fill a container by spreading out to occupy all available space within the container. This is due to the high kinetic energy and random motion of gas particles, which allows them to move freely and fill the space evenly.
Liquids take the shape of their container due to their ability to flow and conform to the shape of the container. They also exert pressure evenly on the container's walls in all directions. Liquids at rest have a flat top surface, which is a characteristic behavior known as surface tension.
When gas is put into a container, it expands to fill the available space evenly. The pressure of the gas molecules against the walls of the container increases until it reaches equilibrium. The volume, temperature, and pressure of the gas will determine its behavior in the container.
This is known as diffusion, where particles move randomly from areas of high concentration to areas of low concentration until they are evenly distributed. This process is driven by the natural tendency of particles to achieve equilibrium.
diffusion. This is due to gas particles moving randomly and colliding with each other, leading to a uniform distribution of gas within the container.
Clean air will fill the container it is placed in, but it does not take on the shape of the container like a liquid would. Air will evenly distribute itself within the container based on pressure and temperature.
Carmine dye particles move through diffusion, which is the process of particles spreading out evenly in a solution due to their random motion. In a liquid medium, the carmine dye particles will move from an area of high concentration to an area of low concentration until they are evenly distributed.
Gas certainty and liquid if the container is absolutely full.
A gas can fully conform to the shape of its container, filling it completely as it expands to take on the container's volume. In contrast, a liquid can only partially conform to the shape of its container, instead resting at the bottom and taking the shape of the container while retaining a distinct surface.
Upward displacement of gas refers to a process where a gas is released into a container, causing another gas to be pushed out and rise upwards due to its lower density. This displacement occurs because gases fill the available space in a container evenly, with lighter gases displacing heavier ones vertically.
because gases evenly distribute themselves to fit any container that they are in.
Air takes the shape of its container because it is a gas, which means its particles are not fixed in place and can move freely. As a result, air molecules spread out evenly to fill the available space of its container.
Gas particles move freely and randomly in a container, colliding with each other and the container walls. They exert pressure on the walls of the container due to these collisions. The particles have high kinetic energy and tend to fill the available space evenly.
Liquid is the answer.
A gas is any substance that forms into the shape of its container (bottle, room, etc.) and completely fills said container fully and evenly. Source: university chemistry