Saturday, 4 May 2013

Important Topic List for GATE EXAM

Hello Friends,
here is some of the important topics for the GATE exam. I evaluate these on the basis of my experience and knowledge, hope it will help you.

Subject Wise Priority List

1. Mathematics
2. Manufacturing science/ Production technology
3. Industrial engineering
4. SOM
5. TOM
6. Design
7. Thermodynamics
8. Fluid Mechanics
9. Heat Transfer
10. RAC
11. Powerplant
12. IC engines
13. Engineering materials and Engineering Mechanics

IMPORTANT TOPICS

1. Mathematics
  • Probability
  • eigen values and eigen vectors
  • differential equations
  • Laplace transform
  • numerical methods
  • calculus, gradient, multiple integrals
  • complex variables
  • matrix algebra
2. Production (IMPORTANT)
  • Theory of metal cutting (most imp.)
  • rolling calculations
  • wire drawing and extrusion calculations
  • sheet metal, (clearance and force required, shear calculations)
  • limit, tolerance, fits
  • basic machining operations time calculations (lathe, grinding, drilling etc.)
  • Casting(important)
  • welding
  • NC, CNC, M and G code
3. Industrial Engineering
  • EOQ Models
  • PERT and CPM
  • Queueing Model
  • Forecasting
  • LPP
  • Break even analysis
  • Work study and measurement
  • Scheduling and Johnson's Rule
  • Balancing
4. SOM
  • Principe stress and strain
  • BMD and SFD
  • Torsion
  • Columns and struts
  • Theories of failures
  • thin cylinders
5. TOM
  • Mechanism
  • Gear train
  • Flywheel
  • Linear Vibration Analysis of Mechanical systems
6. DESIGN
  • Rolling contact bearings. load life relationship
  • Fluctuating Load consideration for design
  • Clutch, brake
7. THERMODYNAMICS
  • Basic concepts
  • application of first law
  • Entropy and availability (IMPORTANT)
  • pure substances
  • thermodynamics relations
8. FLUID MECHANICS
  • Properties of Fluid
  • Pressure measurement
  • Fluid kinematics
  • Bernoulli's equation and venturimeter
  • Boundary layer theory
  • Hydraulic Turbine
9. HEAT TRANSFER
  • Conduction
  • critical thickness of insulation
  • unsteady conduction(lumped heat analysis) (Important)
  • Heat exchangers (LMTD, NTU)
  • Radiation (shape factor, heat exchange between non black bodies)
10. RAC
  • Heat engine, pump and refrigerator
  • Vapour compression systems
  • Psychrometry
11. POWERPLANT
  • Steam cycle
  • Gas Cycle
12. IC ENGINES
  • Gas Power cycles(Otto, Diesel)
13. ENGINEERING MATERIALS
  • Iron-Carbon Equilibrium diagram
  • Heat treatment
14. Engineering Mechanics
  • Equilibrium and truss
These are the very important topics for the GATE exam...
Any doubt and question are welcome....

 

Nut Chamfer using pro e WF 4.0 complete demonstarion

hello friends,
today i am sharing how to do nut chamfer using pro e.
following is the link

Nut Chamfer Using Pro E WF 4.0

Don't forget to leave comments. 

Thursday, 25 April 2013

HOW TO CRACK GATE EXAM....MECHANICAL

HELLO FRIENDS,

This year i wrote GATE exam for the first time and i secure 41.67 out of 100 and All India Rank is 4584 in Mechanical side.

Guys i want to tell you all that securing above 60 marks in GATE is not that much difficult. I was unable to get because of lack in preparation and not able to bear the pressure in the final 1 hour of GATE exam. still i got promising marks, that boost me up.

Well in mechanical from the last 3 or 4 years the GATE pattern was quite easy compared to that of 2007 and before. So now a  days some serious concentration on very important topics make you to get away with a very good rank.

Now i want to tell you that what are the most important topics in gate exam.

GATE PATTERN

GATE exam is of 100 marks and in mechanical average cut off is between 25 to 30, but may depend on the exam of particular year. there is 70 marks for the all technical part of mechanical side which consist of core mechanical subjects and other part consist of 15 marks engineering mathematics plus 15 marks for aptitude and English.

  • Heat transfer, Thermodynamics, Fluid Mechanics and Machines, Strength of materials, Theory of Machines, Production Technology, Power plant, RAC and Machine Design, IC engines
  • Engineering mathematics
  • English and Reasoning and Aptitude
for me preparing time is less so i left machine design and RAC, but i suggest you to not to leave any of these subjects.i explain how to make this simple.

Strategy
  • Firstly cover Thermodynamics completely with last 10 years gate papers and after that when you are through with the subject then its time for heat transfer and IC engine cycles i.e. Otto, and diesel cycles.
  • With Thermodynamics it is easy for you to cover heat transfer and understand it easily.
  • Now when you are done with these subjects then its time for Fluid and power plant subjects, comparatively fluid syllabus is more than power plant, power plant only includes vapour power cycle and steam power cycle. So these are the very important subjects
  • Now the most important subject according to me is Production Technology, all last year exam gives you an idea how important is this. In GATE 2013 it consist of 16 marks out of 70. so it makes you feel that how important is this subject, so give sufficient time to this subject to justify its importance.
    • In production technology metal cutting, casting, forming is very very important.
  • Now subjects Theory of Machines and Strength of Materials have equal importance. Always 7 to 8 marks is expected from these subjects.
  • Machine design and RAC consist of less marks but never underestimate these subjects as of their importance.
According to me at least 20 to 25 days are requires for the practise after your preparation of all subjects.

other subject i.e. maths, Eng. and aptitude also require time for the practise.

HOW TO MAKE PREPARATION SIMPLE

Now you are thinking all these subjects done at a time is very difficult to remember. so here the some ways to how to do this:
  1. firstly you prepare thermal subjects i.e. Thermodynamics, heat transfer, IC engines.
  2. then start fluid along with practise of previous subjects.
  3. at the middle of fluid start production and
  4. when fluid ends along with of production start some 1 or 2 hour practise of maths, and aptitude.
  5. when you all are done then try to give some tests so that to increase your speed.
  6. doing all your practise set a time alarm near to you so that every time you can increase your speed.
  7. now for machine design and rac if more time is there then go completely through these subjects
  8. but if time is not there then try to see last year papers what is they are asking in these subjects and make Strong that topics.
  9. 20 to 25 days of complete practise is must.
  10. try to maintain daily 8 to 10 hours, is you are able to give more that is up to you
soon i will post some more information regarding gate exam and list of important gate topics.
you can ask for any of your doubt.

keep preparing....



 

Monday, 15 April 2013

Pro e my first car in progress

hello friends ,
today i am going to share my first car design using pro e wildfire 4.0. i hope u will appriciate it.



Tuesday, 9 April 2013

Fluid Mechanics Basics

Hello friends,

today i am going to teach you some very basic concepts of fluid mechanics.
lets starts:

FLUID
we know in solids the molecules are very close to each to other, so they always show a fixed angular deformation as shown below

But In fluids this deformation which we generally describe as shear is not fixed, their we get continuous deformation beacause of the flow property. We term it as viscosity, later on i will explain the Viscosity. That's why here angular deformation keep on changing so here we get continuous deformation.

Gases and Liquids are having very important property of continous deformation which is termed as flow property.

So we put gases and liquids in different cateogry which is far away from solids and known as FLUIDS.

Fluid as Continuum:
                                  Continuum means continous mass. We have two types of studies of fluids one is microscopic and orther is macroscopic.

In Microscopic voids or the interstitial gap between the molecules can not be neglected. But in Macroscopic we can neglect the voids with respect to system dimensions.

so the fluid system can be treated as continous distribution of mass and this concept is known as continuum.

BASIC PROPERTIES OF FLUIDS

1. Density (ρ)
It is defined as the ratio of mass to the volume.
S.I units,
mass=kg
volume= m3
So density = kg/m3

2. specific weight (w)
It is deined as the ratio of weight to the volume of fluid.

3. Specific Gravity (S.G)
It is defined as the ratio of density of fluid with respect to standard fluid.

for liquids , water is taken as standard fluid and density of water is 1000 kg/m3.
for gases , air is taken as standard and density of air is 1 kg/m3

4. Relative density:
 It is defined as the ratio of density of one fluid to the density of the other fluid.

The difference Between specific gravity and realtive density is that in specific gravity we took ratio w.r.t standrad fluid whereas in relative density no concept of standard fluid. It is a general ratio term.
If at any place like in examination if you found some term like this then examinar must clear by telling the other fluid also, if other fluid is not given then it is understood that specific gravity is given.

5. Compressibility (β)
This term basically defined as to check the change in volume of the fluid when pressure is changed.
this term is -ve because as pressure increases volume must decrease or vice versa. hence both are opposite so term is -ve, but we want to define compressibility as +ve so we multiply it with -ve to make is postive.

Now, we know mass is always conserved.
                                                                                    ρV= Constant
differnetiate this equation
                                                                                       ρdV + Vdρ = 0

put this value in abobe equation
Now, we define Incompressible Fluid
Actually density not change with respect to pressure
 These Fluids are termed as Incompressible fluid.

Liquids
 For liquids generally we take water it is compressible but very small change in volume with very high pressure increase.
so liquids can be treated as incompressible they are not actaully incompressible.
so mark this line i.e can be treated as.

Gases
From ideal gas equation we can see that pressure is directly prop to density.

so in gases density changes abruptly with change in pressure.so these are highly compressible.

6. Viscosity

"two adjacent layers of fluid resist the reltive motion of each other such a fundamental property is known as viscosity".

Basic cause:
The basic reason is cohesive forces which is acting between the molecules of the fluids.
they resist each other due to which friction develops or shear stresses develop, this is known as viscosity.

where

τ = shear stress
µ = viscosity
                       
                              Keep reading and keep exploring your ideas in the real world.



 

Sunday, 7 April 2013

Basic Thermodyanamics Concepts


Reversible Process
 A process is said to be reversible process if when reverse leaves no effect on system and                 surroundings and follows the same path.

1.       Reversible process is the most efficient process and is used for comparing other actual processes.

2.       Reversible process is simple to analysis

3.       Friction is one of the cause which makes the process irreversible

 
Quasi-static Process
A process which is carried out in a very slow manner such that the difference in the pressure is negligible, such a beautiful process is called as quasi-static process

NOTE: A frictionless quasi-static process is reversible process.

Saturday, 6 April 2013

A Report on AIR ENGINE COMPRESSER MODEL

hello friends,
today i am sharing the a project report of mine on air engine compressor model..
following is the link..

AIR ENGINE COMPRESSOR.