COURSE OBJECTIVES:
· To provide students with practical knowledge of basic laws i.e ohms law,
Kirchhoff’s law and measure resistance.
· To help students find V-I relationship for P-N Junction diodes, rectifiers
and transistors.
· To brief the students about magnetic and electric devices like transformers
and motors
COURSE OUTCOMES:
Upon the completion of this course the student will be able to:
1. To verify various laws using electrical instruments
2. Students are expected to perform open circuits and short circuit tests on trans-formers and get familiar with various electric motors.
3. To get familiar with various electrical equipment liken-junction diodes, transistors and plot their characteristics w.r.t reading taken.
4. Students are expected to know about the latest practical trends in electrical and electronic fields.
COURSE OBJECTIVES:
· Preparation of wooden pattern using carpentry tools.
· Making sand mold using pattern.
· Various operations performed on press tools.
· Simple joints like T-joint, butt joint are prepared using arc, oxy-acetylene, MIG, TIG welding techniques.
· Preparation of gear wheel and hub nut cover using injection molding machine.
COURSE OUTCOMES:
Upon the completion of this course the student will be able to:
1. Make the wooden pattern using carpentry tools.
2. Use the pattern for creating mold cavity.
3. Perform blanking and piercing operations on press tools.
4. Fabricate welded structures for engineering applications.
5. Prepare components using blow and injection molding.
- Teacher: Ravi K
COURSE OBJECTIVES:
· To acquire the knowledge of drafting software.
· To provide hands on experience to develop 2D models of machine components.
COURSE OUTCOMES:
Upon the completion of this course the student will be able to:
1. Develop engineering drawings for the machine components as per Indian Standard
Code of practice using a drafting software.
2. Prepare assembly drawings from part drawings.
- Teacher: Raghu Kumar B
COURSE OBJECTIVES:
· Specify various casting and welding processes with applications
· Study various metal forming processes.
· Familiarize with the processing of plastics
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Explain fundamentals in the sand casting process.
2. Illustrate various special casting processes
3. Select suitable welding technique based on their application
4. Describe the necessity of metal forming processes
Discuss the types of polymers and their processing methods- Teacher: Raghu Ram N
COURSE OBJECTIVES:
· Comprehend the concept of machines, mechanisms and related terminologies. Discriminate mobility (number of degrees-of-freedom) of the member and enumeration of rigid links and types of joints within mechanisms.
· Formulate the concept of synthesis and analysis of different mechanisms. Distinguish a mechanism for displacement, velocity and acceleration at any point in a moving link.
· To analyze Principles and working of various straight line motion mechanisms and understand Steering gear mechanisms and working of hooks joint.
· Perceive the working principles in power drives which includes theory of gears, gear trains and cams
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Build up critical thinking and problem solving capacity of various mechanical engineering problems related to kinematics of machines.
2. Analyze design related problems of straight line motion mechanisms effectively.
3. Asses various concepts of Steering gear mechanisms and working principles of gears and cams
4. velocity and acceleration analysis of simple four bar mechanisms
- Teacher: Kishore Reddy CH
COURSE OBJECTIVES:
- Acquire knowledge about the IC engine cycles, classification and working
Principles
- Describe the testing and performance parameters along with heat balance
Sheet
- Explain different alternate fuels, gas turbines and about jet propulsion
COURSE OUTCOMES:
Upon the completion of course the students will be able to:
1. Explain basic concepts of actual cycles with analysis and to describe the
fundamental concepts of IC engines along with its working principles.
2. Describe the combustion phenomenon in SI and CI engines.
3. Evaluate the performance of IC engines and the importance of alternate fuels.
4. Classify the essential components of gas turbine along with its performance
improving methods.
5. Illustrate the working principle of different types of Jet propulsive engines and
Rockets.
- Teacher: Mastan Rao P
COURSE OBJECTIVES:
· Explain the basic concepts of steam power plant
· Describe the working principle of various components of steam power cycle
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Describe the thermodynamic analysis of Rankine cycle, combustion phenomenon.
2. List the classifications and working principles of different boilers and steam nozzles
3. Classify the steam turbines along with the thermodynamic analysis
4. Recall the requirement and working principles of steam condensers
5. Reproduce the mechanical details and principle of operation for different types of compressors
- Teacher: Vidya CH
COURSE OBJECTIVES:
- The student will compute beam deflections under transverse loads using various methods.
- The student will describe State of stress at a point and compute principal stresses under bi-axial loading conditions.
- The student will be able to analyze curved beams, thick cylinders and rotating discs for induced stresses, strains and deformations under static loads
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
- Determine the shear stresses and modulus of rigidity in shafts.
- Calculate deflections of statically determinate and indeterminate beams.
- Solve problems relating to bending of continuous and curved beams.
- Analyze and evaluate critical buckling loads of columns under various boundary conditions
- Teacher: Somaiah Chowdary M