Team of MECHANICAL

Hai friends,
the team members of srmechanicalupdates09 are not responsible for any errors,omissions,or damages arising out of use of this information.
-mechoriders
Also vist www.yantrimaan.blogspot.com

Sunday, January 30, 2011

Team of MECHANICAL

Hai friends,
we havent covered all the topics but we have tried our level best 
SORRY for any kind of inconvenience and mistakes.
           ALL THE BEST  for ur exams.
                      thanking u
                                     -Mechoriders

KOM Epreparation mid1 4(units)


Mechanism 1

Rigid Link

Kinematic Link: Each resistant body in a machine which moves relative to another resistant body is called Kinematic link or element. A resistant body is which do not go under deformation while transmitting the force.
Kinematic links can be divided into three types.
1.      Rigid link- In this type of link there is no deformation while transmitting the motion. Motion between the piston and crank can be considered as a rigid link.
2.      Flexible link- In this type of link there is partial deformation while transmitting the motion. Belt drive is an example of flexible link.
3.      Fluid link- In this type of link the motion is transmitted with the help of fluid pressure. Hydraulic brake is an example of fluid link.

Kinematic pair - Wikipedia, the free encyclopedia

 

Kinematic pair:
Kinematic Pair: When the two Kinematic links are joined to have relative motion between them is known as Kinematic pair.
The Kinematic pairs are classified as follows.
Acc. to the nature of contact
1.      Lower pair – When the two links have surface contact between them, it is known as lower pair.
2.      Higher pair - When the two links have line or point contact between them, it is known as lower pair.
Acc. to nature of relative motion
1.      Sliding pair – When one link slides relative to another link, it is known as sliding pair.
2.      Turning pair – When one link turns or revolve relative to another link, it is known as turning pair
3.      Rolling pair – When one link rolls over the other pair, it is known as rolling pair.
4.      Screw pair – If two pairs have turning as well as rolling motion between them, it is known as screw pair.
5.      Spherical pair – When a spherical link turns inside a fixed link, it is known as spherical pair.
Acc. to nature of constraint
1.      Self closed pair – When the two links are joined together mechanically, it is known as self closed pair.
2.      Unclosed pair – When the two links are connected either due to gravity or by some external forces, it is known as unclosed pair.   
 

Machine - Wikipedi

a, the free encyclopedia

Straight line mechanism - Wikipedia, the free encyclopedia

Kinematics - Wikipedia, the free encyclopedia

Acceleration in Mechanisms

Steering - Wikipedia, the free encyclopedia

Steering System

Universal joint - Wikipedia, the free encyclopedia

PT Epreparation MID 1 4(units)

Saturday, January 29, 2011

college photos...








ATD


Internal combustion engine - Wikipedia, the free encyclopedia

The term spark ignition is used to describe the system with which the air-fuel mixture inside the combustion chamber of an internal combustion engine is ignited by a spark.
It is a process that uses an electrical field induced in a magneto or coil. The field builds to many thousands of volts and then is collapsed via a timed circuit. The resulting surge of current travels along a wire and terminates at the spark plug inside the combustion chamber. An electrical spark occurs as the charge tries to jump the precision gap at the tip of the spark plug at exactly the moment a precisely metered mixture of fuel and air has been thoroughly compressed in the combustion chamber. The resulting controlled explosion delivers the power to turn the reciprocating mass inside the engine.
 

Two-stroke engine - Wikipedia, the free encyclopedia


Four-stroke engine - Wikipedia, the free encyclopedia


Types of Internal Combustion Engines: Reciprocating and Rotary Engines


Spark Ignition (SI) Engine and Compression Ignition (CI) Engine: A ...