Heat is a form of energy that results in a change in temperature or state of the system.
Work refers to an activity that is being done on or by the system with the involvement of energy. Energy is the capacity to do work and is analogous to domestic currency.
Both Work and heat (energy) are measured in Joules.
Work is not a property of a substance, because work requires movement through space of a mass, and movement is not an inherent property of any substance. Heat is also not a property of a substance, although heat is closely related to temperature, which is a property of any particular homogeneous sample of a substance but not of any substance in general, because any substance can exist at more than one temperature.
Harder than work piece High thermal conductivity High heat transfer coefficient
It has austenitic matrix with very good heat and corrosion resistance properties upto 1500 F
Yes - with certain limitations. You can convert part of the heat - not all of the heat - into useful work, if there is a heat difference. The remainder of the heat (from the hot container) gets passed to the cold container. You CANNOT convert ALL the heat into useful work, nor can you convert heat into useful work if there is no heat difference. All this would contradict the Second Law of Thermodynamics, and it is very unlikely that this law will ever be violated.
False
False its not possible to convert all heat into work as some of its being used as energy APEX
Mostly good heat insulation properties.
Copper is an excellent conductor of electricity and heat is one of the properties of copper and it is used in conducting heat.
irstly from Thermodynamics point of view, we need to call heat as Heat transfer. Both Heat and work transfer are energies in transit. They come into picture only when a process is taking place. Also the quantity of heat transfer depends on the type of process or path followed. So Heat Transfer is a path function but not a property(which is a point function). 📷 In case of properties, the difference in properties (here P2-P1 or V2- V1)between state 1 and state 2 always remains same irrespective of the path followed. So properties are called Exact Differentials or Point functions. But in case of Heat transfer and Work transfer, the quantity of heat and work transfer between state 1 and state 2 depends on the path followed. Therefore heat and work transfer are not exact differentials,they are Inexact differentials or path functions.
Harder than work piece High thermal conductivity High heat transfer coefficient
Ce to heat property
Heat resistanceFlexibleDries quickly
No.
Convection ovens have a fan in them which circulates the air. That makes for faster cooking (20%)
soft, electrical and heat insulator
a major component of matter???
It has excellent heat transfer properties.
Light, Heat,Electricity, magnitism