Not necessarily. Remember: q = hA(dT) h can change depending on these values, however remember the Nusselt equation used to find h. This Nusselt equation varies depending on the Reynolds number, Prandtl number, and sometimes (usually during free convection) the Raleigh number. The Prandtl and Raleigh numbers have terms in them which are functions of the material chosen.
Heat transfer is definitely a thermodynamic property. The form of energy we call heat is only considered heat when it transfers from one site to another. It is analogous to rain in that when we talk about rain we are talking about water moving as droplets from the clouds to the ground. Before it starts falling it is called a cloud. Once it lands it is called puddles or rivers or oceans. but it is no longer rain. Similarly heat is the energy in motion. When an object is "hot" it isn't full f heat, it's full of internal energy. Work may be transformed into heat - usually through friction. Chemical energy can become heat during a chemical reaction. The coolant in a pipe can transfer heat to its surroundings to increase their internal energy and decrease its own internal energy.
Thermodynamics
The most obvious relation to thermodynamics is that when you have a fever your body temperature is higher than normal so you tend to transfer more heat to your surroundings or absorb less if the ambient temperature is warmer than you.
The study of heat is called thermodynamics.
The second law dictates that heat will spontaneously move from a system at higher temperature to a system at lower temperature - but never spontaneously from low to high.
Thermodynamics
Heat and heat transfer are covered in something called thermodynamics. Check out the link.
Thermodynamics
fluid thermodynamics?
Thermodynamics is the study of heat transfer. Heat moves from place to place from the release of heat (exothermic) and the absorptions of heat (endothermic).
Thermodynamics is the study of heat transfer. Heat moves from place to place from the release of heat (exothermic) and the absorptions of heat (endothermic).
thermodynamics, heat transfer... and the course is Mechanical Engineering...
Conduction is the term for heat transfer because of direct contact.
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.
In Thermodynamics the transfer of thermal energy from a warmer object(or system) to a cooler object is called Heat.
just because Conduction radiation Physics thermodynamics's heat transfer.
Thermodynamics
There are many forms of mechanical engineering careers in Thermodynamics. Some popular ones lay within the realm of diesel technology, aviation (turbojet and turbine design), power plant engineering (heat exchangers, turbines, heat transfer), and many fluid based fields Think of anything involving the words: heat, energy, transfer, fluids, and power.