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true
No. Roughly speaking, the amount of heat energy in an object is the absolute temperature, times the mass of the object, times the material's heat capacity.
FALSE (APEX)
Yes, there is us. Static Friction.
The Kelvin scale starts at a true zero; 0o K is the temperature at which there is actually no heat. Therefore, you get a true measure of heat using this system; an object at twice the temperature in kelvins is actually twice as hot. That is not true of other temperature scales such as Celsius or Fahrenheit.
true
No. Roughly speaking, the amount of heat energy in an object is the absolute temperature, times the mass of the object, times the material's heat capacity.
yes it is true
Yes. This is true for every hot object.
False. The thermal energy itself is the heat, whether or not it happens to be flowing.Another AnswerFalse. Heat is energy in transit from a body at a higher temperature to a body at a lower temperature.The term, 'thermal energy', is long-obsolete, and doesn't describe 'heat'. It has been replaced by the term 'internal energy' which describes the energy due to the vibration of the molecules/atoms that make up an object.
true because its warm to cool which means it changes temperature
FALSE (APEX)
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
objectfollow = name or id of object to follow. spd = speed to follow. { if collision_point(self.x,self.y,objectfollow,true,true) = false { mp_potential_step(objectfollow.x,objectfollow.y,spd,true) } }
Yes, there is us. Static Friction.