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Thermodynamics
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| Thermodynamics |
Chapter no 5: Mass Energy Analysis of Control Volume
chapter 5.pdf
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In this chapter we will discussed the following topics in detail:
- Energy Analysis of Steady flow
- First law of thermodynamics for a Control Volume under steady flow
- Mass and Energy balance for a steady-flow Process
- Some Steady flow Engineering Devices
- Turbines and Compressor
- Throttling value
- Heat Exchanger
Engineering Dynamics
Engineering Dynamics lec 12.pptx
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The Product of force and time is defined as the linear inpulse of the force and the equation given in slide 5 according to that equation the total linear impulse on m equals the corresponding change in linear momentum.
For further detail of this lecture used the above slides.
Engineering Dynamics
This lecture is actually based on the previous four lecture and different mcqs, true false and sample problems are include from lecture no 10, 11, 12, 13 and 14.
Engineering Dynamics lec 16.pptx
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Engineering Dynamics
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In these slides we discuss the following topics:
The concept of relative motion will be applied to rigid body kinematics
Earlier the relation for motion relative to translating axis were developed in chapter no 2 and the relative velocity equation was applied to the motion of 2 particles A and B as below.
For further detail of this chapter please read the slides. Also we will discuss the following topics
Relative motion due to rotation.
Relation of Relative motion
Interpretation of relative velocity equation
and we solved the sample problem 5/7, 5/8
Engineering Dynamics
In chapter of particles kinematics the relation for displacement, velocity and acceleration of the points as they move along a straight line or curved path were developed.Engineering Dynamics lec 13.pptx
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In here the same relationships will be used but also account for rotational displacements, velocities and acceleration.
Also we will discuss the following topics:
Rigid Body Assumption
Plane Motion
Translation
Rotation
General Plane motion and summary
Angular motion relation
Rotation with constant angular motion
Rotation about a fixed axis
and we solved sample problem 5/1.
Mechanics of Material
chap-3.pdf
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- Introduction
- Torsional Loads on Circular Shafts
- Net Torque Due to Internal Stresses
- Axial Shear Components
- Shaft Deformations
- Shearing Strain
- Stresses in Elastic Range
- Normal Stresses
- Torsional Failure Modes
- Sample Problem 3.1
- Angle of Twist in Elastic Range
- Statically Indeterminate Shafts
- Sample Problem 3.4
- Design of Transmission Shafts
- Stress Concentrations
- Plastic Deformations
- Elastoplastic Materials
- Residual Stresses
- Example 3.08/3.09
- Torsion of Noncircular Members
- Thin-Walled Hollow Shafts
- Introduce students to the concept of torsion in structural members and machine parts.
- Define shearing stresses and strains in a circular shaft subject to
- torsion
- Define angle of twist in terms of the applied torque, geometry of
- the shaft, and material
- Use torsional deformations to solve indeterminate problems
- Design shafts for power transmission
- Review stress concentrations and how they are included in torsion
- problems
- Describe the elastic-perfectly plastic response of circular shafts
- Analyze torsion for noncircular members
- Define the behavior of thin-walled hollow shafts
Hitec Mechanical Engineering
Mechanical Engineeirng Hitec Mechanical Engineering As we know Mechanical Engineering is the branch of engineering dealing with the des...
