There are no major disadvantages of thermal mass flow meter as compared to its advantages. But cons of thermal mass flow meter includes:
No, thermal energy does not affect mass. Mass is a measure of the amount of matter an object contains, while thermal energy is a measure of the internal energy of an object due to the movement of its particles.
No, the mass of an object does not change during thermal expansion. Thermal expansion results in an increase in volume and dimensions of the object, but the mass remains constant.
Mass affects thermal energy by determining the amount of kinetic energy particles have. Greater mass means more particles vibrating, resulting in higher thermal energy. Additionally, more massive objects can hold onto thermal energy for longer periods due to their higher heat capacity.
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substance mass
raising of object temperature, the mass, specific heat
To calculate thermal energy from kinetic energy, you can use the equation: Thermal energy 1/2 mass velocity2. This formula relates the kinetic energy of an object (determined by its mass and velocity) to the thermal energy it produces.
Thermal energy depends on mass because systems with more mass contain more particles that contribute to the total thermal energy. Meanwhile, thermal energy depends on temperature because temperature is a measure of the average kinetic energy of the particles in a system, with higher temperatures corresponding to higher average kinetic energies and thus higher thermal energy.
You generally need a catalyst or a mechanism to convert the energy. For example to convert fuel (a mass) into thermal energy, oxidizer and a spark are needed.
The formula for thermal energy is mc(deltaT) equals thermal energy, which means that multiplication of change in temperature by mass and specific heat gives you the thermal energy.
Mass production is: - Inflexible - Limits the design of products