Yes, in a substance like steam at 110 degrees Celsius, the particles move most rapidly due to the high temperature causing increased kinetic energy. This leads to faster movement and more collisions between particles.
When steam is cooled, its particles lose energy and slow down. As a result, the steam condenses back into water vapor or liquid water. The particles move closer together due to the decrease in thermal energy.
Particles in ocean water have less energy than particles in steam because the temperature of the ocean water is lower than that of steam. Temperature is directly related to the kinetic energy of particles, so particles in steam, which is a gas at a high temperature, have more energy and move faster than particles in ocean water.
Steam is a better conductor of heat compared to air. Steam is in a gaseous state and has higher thermal conductivity because its particles are moving more quickly and can transfer heat faster than the particles in air.
Steam has higher kinetic energy than ice because the particles in steam have higher average velocities than those in ice. As temperature increases, the kinetic energy of particles also increases, leading to faster movement of particles in the gaseous state compared to the solid state.
steam is a gas so the particles are far apart
ice steam and water
Steam has the greatest entropy per mole compared to ice and water, as steam has a higher degree of disorder and randomness in its molecular arrangement.
Steam has the most energy as its particles are in the gaseous state and move faster than particles in liquid water or ice, which are in the solid or liquid state respectively. Freezing water has a similar amount of energy as liquid water since they are at the same temperature.
Yes, in a substance like steam at 110 degrees Celsius, the particles move most rapidly due to the high temperature causing increased kinetic energy. This leads to faster movement and more collisions between particles.
When steam turns to water, the particles lose energy and slow down, coming closer together. This causes the steam to condense into liquid water.
When steam is cooled, its particles lose energy and slow down. As a result, the steam condenses back into water vapor or liquid water. The particles move closer together due to the decrease in thermal energy.
Particles in ocean water have less energy than particles in steam because the temperature of the ocean water is lower than that of steam. Temperature is directly related to the kinetic energy of particles, so particles in steam, which is a gas at a high temperature, have more energy and move faster than particles in ocean water.
Yes, particles in steam collide with each other due to their high kinetic energy and constant random motion. These collisions contribute to the pressure and temperature of the steam.
The particles are bonded together with some force when heat is supplied the then force between particles decreases and the start to move away from each other or we can say that the particles get that energy and become energetic and movement starts in individual particle and the force between the particles decrease. This is why when water is heated the particles detach from each other become steam.
his greatest invention was the steam engine
Steam is a better conductor of heat compared to air. Steam is in a gaseous state and has higher thermal conductivity because its particles are moving more quickly and can transfer heat faster than the particles in air.