thermodynamics:
1) it deals with the equilibrium states of matter & precludes the existence of a temp. gradient.
2) when a system changes from one equilibrium state to another, thermodynamics helps to determine the quantity of work & heat interactions. it describes how much heat exchange during a process is required but doesn't hint on how the same could be achieved.
heat transfer:
1) it is inherently a non equilibrium process since a temp. gradient must exist for the heat transfer to occur
2) it helps to predict the distribution of temp across a surface and to determine the temp. gradient that exists between different surfaces
Themodynamics studies the degree of agitation of the molecules, fluid mechanics studies the movement of the liquids and gases. They are completely different studies
thmodynamic tells us 1-how much heat transfered but heat transfer tell us mode of heat transfer
Fluid's lack of rigidity contributed to scientist's creation of the area of fluid mechanics.
Head is the height of the fluid above the point you are measuring.
Discharge in fluid mechanics is simply a volumetric flow rate of liquid at the exit and it can simply be claculated by the equation of continuity q=(crossectional area of pipe)(velocity of fluid)
important question means important questions of liquids and gases
It all comes under Fluid dynamics/mechanics, and it's the same set of symbols for circuits. Many hydraulic symbols will include a drain to the tank. Pneumatic circuits use the atmosphere as their "tank".
Mechanics Electromagnetism Optics Thermodynamics Fluid mechanics
Mechanics Electromagnetism Optics Thermodynamics Fluid Mechanics
That would be Fluid Mechanics, a prerequisite for which is Thermodynamics.
There are hundreds of examples! Reaction rates, Rate relationships in mechanics, electric fields, gravitation, fluid mechanics, population growth, thermodynamics...
Deborah A. Kaminski has written: 'Introduction to thermal and fluid engineering' -- subject(s): Fluid mechanics, Heat, Thermodynamics, Transmission
Allan D. Kraus has written: 'Introduction to thermal and fluid engineering' -- subject(s): Transmission, Thermodynamics, Heat, Fluid mechanics 'Introduction to thermal and fluid engineering' -- subject(s): Transmission, Thermodynamics, Heat, Fluid dynamics, Fluid mechanics 'Analysis and evaluation of extended surface thermal systems' -- subject(s): Transmission, Heat, Heat exchangers, Surfaces (Technology)
Roland. has written: 'La chanson de Roland' 'Correspondance politique' 'Introduction to Fluid Mechanics and Thermodynamics'
Fluid mechanics can be challenging due to its complex mathematical modeling and the need to understand fluid behavior under various conditions. The concepts of viscosity, turbulence, and fluid flow can be difficult to grasp initially. However, with practice and application, mastering fluid mechanics is achievable.
solid is the form of khakhas fluid is the form of uche
describe the differences between intravenous fluid and blood
Journal of Fluid Mechanics was created in 1956.
Victor L. Streeter has written: 'Handbook of fluid dynamics' -- subject(s): Fluid dynamics 'Fluid dynamics' -- subject(s): Fluid dynamics 'Fluid Dynamics (Aeronautics Science Publications)' 'Fluid mechanics' -- subject(s): Fluid mechanics 'Fluid mechanics' -- subject(s): Fluid mechanics