Monday, October 19, 2015

OHM'S LAW IMAGE

OHM'S LAW

1. Ohm's Law deals with the relationship between voltage and current in an ideal conductor. This relationship states that:
The potential difference (voltage) across an ideal conductor is proportional to the current through it.
 The constant of proportionality is called the "resistance", R.
Ohm's Law is given by:
    V = I R
where V is the potential difference between two points which include a resistance R. I is the current flowing through the resistance. For biological work, it is often preferable to use the conductance, g = 1/R; In this form Ohm's Law is:
    I = g V
2. Material that obeys Ohm's Law is called "ohmic" or "linear"  because the potential difference across it varies linearly with the current.
 3. Ohm's Law can be used to solve simple circuits. A complete circuit is one which is a closed loop. It contains at least one source of voltage (thus providing an increase of potential energy), and at least one potential drop i.e., a place where potential energy decreases. The sum of the voltages around a complete circuit is zero.
4. An increase of potential energy in a circuit causes a charge to move from a lower to a higher potential (ie. voltage). Note the difference betweenpotential energy and potential.
Because of the electrostatic force, which tries to move a positive charge from a higher to a lower potential, there must be another 'force' to move charge from a lower potential to a higher inside the battery. This so-called force is called the electromotive force, or emf. The SI unit for the emf is a volt (and thus this is not really a force, despite its name). We will use a script E, the symbol , to represent the emf.
A decrease of potential energy can occur by various means. For example, heat lost in a circuit due to some electrical resistance could be one source of energy drop.
 Because energy is conserved, the potential difference across an emf must be equal to the potential difference across the rest of the circuit. That is, Ohm's Law will be satisfied:
 
 
     = I R
 5. Here is a nice simulated experiment on Ohm's Law for you to test your understanding of this concept. Use the "back" button to return to this place. 

Tuesday, October 6, 2015

NEWTON LAW

Newton's First Law of Motion:


I. Every object in a state of uniform motion tends to remain in that state of motion unless an external force is applied to it.

Newton's Second Law of Motion:

II. The relationship between an object's mass m, its acceleration a, and the applied force F is F = ma. Acceleration and force are vectors (as indicated by their symbols being displayed in slant bold font); in this law the direction of the force vector is the same as the direction of the acceleration vector.

Newton's Third Law of Motion:

III. For every action there is an equal and opposite reaction

Monday, October 5, 2015

NEWTON FIRST LAW

Newton's First Law

Newton's First Law states that an object will remain at rest or in uniform motion in a straight line unless acted upon by an external force. It may be seen as a statement about inertia, that objects will remain in their state of motion unless a force acts to change the motion. Any change in motion involves an acceleration, and then Newton's Second Law applies; in fact, the First Law is just a special case of the Second Law for which the net external force is zero.
Newton's First Law contains implications about the fundamental symmetry of the universe in that a state of motion in a straight line must be just as "natural" as being at rest. If an object is at rest in one frame of reference, it will appear to be moving in a straight line to an observer in a reference frame which is moving by the object. There is no way to say which reference frame is "special", so all constant velocity reference frames must be equivalent.
Index

Mass on stringexample.

Newton's laws concepts.
 
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Centripetal Force Example

The string must provide the necessary centripetal force to move the ball in a circle. If the string breaks, the ball will move off in a straight line. The straight line motion in the absence of the constraining force is an example of Newton's first law. The example here presumes that no other net forces are acting, such as horizontal motion on a frictionless surface. Thevertical circle is more involved.
Centripetal force calculation
Index
 
HyperPhysics***** Mechanics

NEWTON B ASIC

TRIANGLE BASICS

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Monday, June 22, 2015

Diesel Engine Details In Three Wheeler Segment

GENERAL SAFETY :

READ  MAINTENANCE  MANUAL & FOLLOW MAINTENANCE SCHEDULE

  • When running , Engine surface can become dangerously hot. Avoid touching hot 
    surfaces particularly exhaust system.
  • Before proceeding with any operation on engine,stop it and allow it to cool. 
    Never carry out any operation when the engine is running.
  • Children and animals must be kept at a due distance from operating equipment
    in order to prevent hazards
  • Before starting, remove any tools that were used to service the engine and/ or
    equipment. Make sure that all guards have been refitted.
  • Fully tighten the fuel/ oil / water filling. Leave an adequate space in tank to avoid
    overfill because of expansion.
  • When there is possibility of accidental short circuit,disconnect the battery negative
    cable first and connect it last.
  • Unauthorized modifications to the engine may impair the function and / or safety 
    and affect engine life.Follow relevant environmental protection regulations when
    disposing oil, fuel,coolant ,electrolyte,filter cartridges, and other harmful waste