Yes Because the liquids molecules have to over come the resistance between each other
When thermal energy is added to a liquid, the average kinetic energy of the liquid molecules increases, causing them to move faster and further apart. This results in an increase in the liquid's temperature, leading to its phase transition into a gas if the added energy is sufficient to overcome the intermolecular forces holding the liquid together.
To become a solid, a liquid will absorb heat energy.
The change from a liquid to a gas when energy is added is called vaporization or evaporation. This process involves the liquid molecules gaining enough energy to overcome the attractive forces holding them together as a liquid, allowing them to escape into the gas phase.
The process is called evaporation. Heat is added to a liquid, causing the molecules to gain energy and transition into a gaseous state. Evaporation occurs at the surface of the liquid.
it makes the substence colder
When thermal energy is added to a liquid, the molecules will move faster and further apart, causing the liquid to expand and become less dense.
Energy must be added to liquid water so that it reaches the boiling point, at which point the water will vaporize into water vapor.
The steel would get warmer and possibly become a liquid.
If energy is added to a liquid at 20 Celsius, the temperature of the liquid will increase. This can lead to a phase change if the added energy is sufficient to raise the liquid's temperature above its boiling point, causing it to vaporize. If the added energy is not enough for a phase change, the increased temperature can affect the liquid's properties such as viscosity.
The liquid is changed in a gas.
When thermal energy is added to a liquid, the average kinetic energy of the liquid molecules increases, causing them to move faster and further apart. This results in an increase in the liquid's temperature, leading to its phase transition into a gas if the added energy is sufficient to overcome the intermolecular forces holding the liquid together.
When energy is added to a liquid causing it to change into a gas, it is called vaporization or evaporation. This process involves the liquid molecules gaining enough energy to break free from the attractions holding them together in the liquid phase and transition into the gaseous phase.
Melting solid into liquid requires energy to be added to the substance.
The process of changing liquid water into a gas is called evaporation. Energy is added to the liquid water - generally in the form of heat. When enough energy is added, it allows the most energetic molecules at the surface of the liquid to break free of the liquid and enter the gas phase. The more energy that is added, the more water molecules will have enough energy to move into the gas phase. If enough energy is added, all the molecules will leave the liquid and from then on adding energy will just make the gas warmer. Another way to change liquid water into gas is to drop the pressure above the liquid. In this case, it takes less energy for the molecules in the liquid to get away from the liquid so some of them will already be energetic enough to get away. Any mass of liquid water will have a range of energies for the molecules, some will be low energy, others high energy with each collision between the molecules, they either gain or loose energy. If they gain enough energy, they can become energetic enough to escape the liquid as a gas. The higher the pressure, the more energy is required to become a gas. If the liquid water is in contact with some gas - air for example. The liquid will evaporate until the gas is saturated with water vapor. At that point the rate of water molecules dropping out of the gas back into the water (because they don't have enough energy to stay in the gas) is equal to the rate of water molecules escaping from the liquid to become gas. This point is also known as "equilibrium".
it heats up
When energy is added to a solid, it can reach its melting point where it transitions from a solid to a liquid.
To become a solid, a liquid will absorb heat energy.