You can determine if an object is receiving more heat than it is passing on by monitoring its temperature increase. If the object's temperature is rising, it is receiving more heat than it is passing on. If the object's temperature is dropping, it is passing on more heat than it is receiving. If the object's temperature remains constant, it is receiving and passing on heat at the same rate.
reduce the amount of heat passing though
The formula for finding the amount of heat transferred to an object is Q = mc(change in T). Q represents heat energy in J, m is the mass of the object in kg, and c is the specific heat of the material.
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.
Heat
Heat
Heat capacity is generally measured as Jule per Kelvin in SI system. It is the the amount of heat required to change a substance's temperature by a given amount.
Temperature measures relative energy of an object. It does not measure heat. The amount of heat (energy) depends on the size of the object, the nature of the material / its heat capacity.
Temperature measures relative energy of an object. It does not measure heat. The amount of heat (energy) depends on the size of the object, the nature of the material / its heat capacity.
Temperature measures relative energy of an object. It does not measure heat. The amount of heat (energy) depends on the size of the object, the nature of the material / its heat capacity.
"What do you measure (when) you measure..." ? When you measure an object's temperature, you are measuring the amount of heat the object emits (gives off). There is no such thing as cold, only the absence of heat.
1st. how hot is the heat source 2nd.the distance between the object and the heat source 3rd.whether if the object is a good conductor of heat (tht's not the answer. u wanted i guess)
The amount of heat energy in an object depends on three things : it's temperature, it's mass, and the material it's made from.