The unit of specific heat is Joules per gram per degree (C) or Joules per gram per degree (K). It comes from Q (heat) per mass per change in temperature (T) or
Specific heat = Heat (Q)/ Mass(M) . Change in Temperature (Delta T).
The effect of temperature on specific heat of material is referred to as specific heat capacity.
Density is directly proportional to the specific heat.
The specific heat is the amount of heat per unit mass required to raise the temperature by one degree Celsius. The relationship between heatand temperature change is usually expressed in the form shown below where c is the specific heat.
No temperature is a specific measurement of heat. Thus at a temperature of absolute zero there is no heat but there is a temperature measurement.
Heat is the cause and temperature is the effect Heat = mass x specific heat capacity x temperature Heat is proportional to temperature and in not equal to temperature. Heat has joule as unit where as temperature has the unit kelvin
change in temperature does not effect specific heat. for example,specific heat of water is 4.14 j/g.k at any temperature
The difference between heat and temperature is that heat is the amount of energy given off by a piece of matter, and Specific Heat indicates the amount of heat necessary to change 1g of something by 1 degree. Temperature measures change in heat.
The effect of temperature on specific heat of material is referred to as specific heat capacity.
Density is directly proportional to the specific heat.
The specific heat is the amount of heat per unit mass required to raise the temperature by one degree Celsius. The relationship between heatand temperature change is usually expressed in the form shown below where c is the specific heat.
Temperature is very specific and quantifiable using Kelvins, degrees Celsius, or degrees Fahrenheit. It can be either hot or cold. Heat is, of course, hot. There is no specific temperature so it is more subjective.
Specific heat capacity is the amount of heat energy required to raise the temperature of a body per unit of mass.
A substance with a high specific heat will easily change temperature.
A substance with a high specific heat will easily change temperature.
A smaller specific heat capacity of a body means that a smaller amount of energy is required to raise the temperature of the body by 1 K compared to the other.
The specific heat of any substance can be found by calculating the amount of heat required to raise a unit mass quantity of it by 1 degree. The relationship between heat and temperature change is Q=cm(change in T) where Q is heat in Joules, c is the specific heat, m is the mass, and T is the temperature.
No temperature is a specific measurement of heat. Thus at a temperature of absolute zero there is no heat but there is a temperature measurement.