They begin to move faster. The increased temperature increases the energy of the molecule.
Yes, as all molecules do when the temperature is raised, they vibrate more violently.
When temperature is lowered, the solubility of most salts decreases because the solubility of solids generally decreases with decreasing temperature. Conversely, when temperature is raised, the solubility of most salts increases as the solubility of solids typically increases with increasing temperature.
When a parcel of air is forced downward, atmospheric pressure increases, causing the air to become compressed and therefore the temperature is also raised.
According to Gay-Lussac's law, the pressure of a fixed volume of gas is directly proportional to its temperature in Kelvin. As the temperature increases, the kinetic energy of the gas molecules rises, causing them to collide with the walls of the container more forcefully and frequently. This results in an increase in pressure. Therefore, to increase the pressure of a gas, its temperature must be raised.
The answer is 88 moles.
They begin to move faster. The increased temperature increases the energy of the molecule.
The molecules start moving faster and spread out, meaning that the air is warm/hot.
Expands because there's more energy for movement.
Yes, as all molecules do when the temperature is raised, they vibrate more violently.
At higher temperatures, atoms and molecules have more kinetic energy, and they will diffuse more easily. Diffusion rates are proportional to temperature. The hotter it is, the higher the diffusion rates we will see.
When temperature is lowered, the solubility of most salts decreases because the solubility of solids generally decreases with decreasing temperature. Conversely, when temperature is raised, the solubility of most salts increases as the solubility of solids typically increases with increasing temperature.
The inter-molecular bonds between the atoms/molecules are broken, releasing the atoms/molecules from a ridged structure to a freely moving mass.
Evaporation is the process by which a liquid turns into a gas when its temperature is raised. It occurs at the surface of the liquid and is influenced by factors such as temperature, surface area, and air movement.
When the temperature of a gas is raised while keeping its pressure constant, the volume of the gas will also increase. This is described by Charles's Law, which states that the volume of a gas is directly proportional to its temperature when pressure is held constant.
When the temperature is raised to the boiling point, the enzyme rennin will denature, meaning it will lose its shape and function due to the high heat. This will render the enzyme ineffective in catalyzing reactions.
The average kinetic energy of the gas molecules increases. This is because temperature is directly proportional to kinetic energy, as stated by the Kinetic Theory of Gases. Therefore, as the temperature increases, the molecules have higher kinetic energy.
raised temperature or raised temperarely