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Do you use calculus in mechanical engineering?
Calculus is a high-level math required for mechanical engineering technology, but it also lays the ground work for more advanced math courses. Once you have successfully mastered calculus you will have the fundamental skills to properly grasp a majority of science courses, especially physics.
Is mechanical engineering easier?
Mechanical engineering is a broad discipline, which is the main reason why it’s considered relatively easy — that is if compared to other engineering specializations, of course. A lot of different subjects and areas of study come into mechanical engineering, such as science, mathematics, design, theory, etc.
Does anyone use calculus?
The most common practical use of calculus is when plotting graphs of certain formulae or functions. Among the disciplines that utilize calculus include physics, engineering, economics, statistics, and medicine. It is used to create mathematical models in order to arrive into an optimal solution.
What are the different types of turbomachines?
Two main categories of turbomachine are identified: firstly, those that absorb power to increase the fluid pressure or head (ducted and unducted fans, compressors, and pumps); secondly, those that produce power by expanding fluid to a lower pressure or head (wind, hydraulic, steam, and gas turbines).
What are the basic laws of thermodynamics and fluid mechanics of turbomachines?
Turbomachines work on basic laws of thermodynamics and fluid mechanics. 1. Conservation of Mass. 2. Conservation of Energy. 3. Newtons Second law of motion. Richard Victor, Department of Mechanical Engineering, SIRT Bhopal
Why does the speed of a turbomachine increase with power?
Instead, the volume flow is smaller with the decreased power and consequently the speed has to be increased. It therefore can be stated for machines with the same pressure ratio that the speed of a turbomachine increases inversely proportionally to the square root of its power.
What happens to the work done in fluid when the turbomachine is smaller?
Adapted from Balje (1981). When the turbomachine is made smaller in size, the work done in the fluid is still the same and the denominator in Equation 7.1 does not change. Instead, the volume flow is smaller with the decreased power and consequently the speed has to be increased.