important question means important questions of liquids and gases
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)
Mathematics-matrix,eigen values & vector, laplace transforms Themodyanamic-first law second law and entopy Fluid mechanics-statics and dynamics Strenght of material -mohar stress strain analysis,thin &thick cylinder spring Machine design-satatic loasd and flactuating load analysis Material science and manufacturing-proprties of materials and various Manufacturing process General knoledge,general awareness,aptitude,reasing Duration-2h, no of questions- 150
software,control,mechanics,electronics,thermodynamics are the most important
Fluid's lack of rigidity contributed to scientist's creation of the area of fluid mechanics.
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
Fluid mechanics refer to the branch of physics that deals with fluid and other forces on them. This is sub-divided into fluid statics and fluid kinematics.
Some recommended fluid dynamics textbooks for beginners include "Fundamentals of Fluid Mechanics" by Bruce R. Munson, "Introduction to Fluid Mechanics" by Robert W. Fox, and "Fluid Mechanics" by Frank M. White.
Alan Mironer has written: 'Engineering fluid mechanics' -- subject(s): Fluid mechanics
H. Yamaguchi has written: 'Engineering fluid mechanics' -- subject(s): Fluid mechanics
Discharge in fluid mechanics refers to the volume of fluid that passes through a given cross-sectional area over a specific time period. It is typically measured in cubic meters per second or cubic feet per second and is an important parameter for analyzing fluid flow in channels and pipes.
Some resources for learning about free jet fluid mechanics include textbooks on fluid dynamics, online courses on fluid mechanics, academic journals on fluid dynamics, and research papers on jet flows. Additionally, universities and research institutions often offer seminars and workshops on fluid mechanics that can provide valuable insights into the topic.
Victor Lyle Streeter has written: 'Fluid mechanics' -- subject(s): Fluid mechanics
Head loss in fluid mechanics refers to the reduction in fluid pressure as it flows through a system, typically due to friction with surfaces within the system or other obstructions. This reduction in pressure leads to a decrease in the total energy of the fluid. Head loss is an important consideration in designing and analyzing fluid flow systems to ensure efficient operation.
The similarity law in fluid mechanics states that two geometrically similar systems in motion will have the same dynamic behavior. This means that if two systems are geometrically similar and experience the same flow conditions, they will exhibit the same pattern of fluid flow. This law is important for scaling up or down experiments in fluid dynamics.