No.
No, mass is not a thermometric property. Thermometric properties are characteristics that can be easily measured with a thermometer, such as temperature. Mass is a measure of the amount of matter in an object and is not related to temperature.
False, the two are totally unrelated. Temperature is related to the average energy of the particles.False, the two are totally unrelated. Temperature is related to the average energy of the particles.False, the two are totally unrelated. Temperature is related to the average energy of the particles.False, the two are totally unrelated. Temperature is related to the average energy of the particles.
No, entropy does not depend on mass. Entropy is a measure of disorder in a system and is influenced by factors such as temperature, volume, and energy distribution. It is not directly related to the mass of a system.
Thermal energy is related to temperature and the amount or mass of a substance. Temperature measures the average kinetic energy of particles in a substance, while the amount of substance determines the total thermal energy present.
The mass of objects does affect the final temperature when they are brought into thermal contact. Objects with greater mass will tend to change temperature more slowly than objects with lesser mass, due to the amount of thermal energy required to raise their temperature.
Density = mass/volume so it is related to mass and volume. And Volume is related to temperature and pressure, so it is related to those as well.
For a given volume and pressure, the mass of the air contained in that volume (density) will decrease as the temperature increases.
Celsius and degree measure temperature. Celsius, mass, and kelvin are metric measurements. Celsius and Kelvin are metric and temperature measurements. Celsius and Kelvin are the related terms.
No, mass is not a thermometric property. Thermometric properties are characteristics that can be easily measured with a thermometer, such as temperature. Mass is a measure of the amount of matter in an object and is not related to temperature.
False, the two are totally unrelated. Temperature is related to the average energy of the particles.False, the two are totally unrelated. Temperature is related to the average energy of the particles.False, the two are totally unrelated. Temperature is related to the average energy of the particles.False, the two are totally unrelated. Temperature is related to the average energy of the particles.
No, entropy does not depend on mass. Entropy is a measure of disorder in a system and is influenced by factors such as temperature, volume, and energy distribution. It is not directly related to the mass of a system.
No. Stars vary in lots of aspects, including:* Diameter * Mass * Color (and the related surface temperature) * Chemical composition * Density (related to mass and diameter) * Brightness
This is the formula for finding calories: calories= (Tf-Ti)mass Or, in words, you subtract the final temperature (the temperature of the fused waters) by its initial temperature (the hot/ cold water's original temperature). You then multiply this answer by the mass of the water before you mix them together. Your hot and cold water should both have the same mass, but not the same temperature.
The color of a star is mainly related to the star's surface temperature. This is only remotely related to the star's mass; for example, high-mass stars can either be very hot (blue) or not-so-hot (red), depending on the phase in the star's life.
Mass does not change with temperature
Thermal energy is related to temperature and the amount or mass of a substance. Temperature measures the average kinetic energy of particles in a substance, while the amount of substance determines the total thermal energy present.
Hi, heat transferred = mass x specific heat capacity x rise/fall in temperature If heat is lost then fall in temperature If heat is gained then rise in temperature. More the transfer then greater the difference in temperature.