Friday, 8 February 2019

TORQUE


So today we will be talking about torque.

Torque is the force that tends to cause rotation around an axis. Torque is one of the terms used to describe how powerful a car is. In a car, torque is the force that the pistons put on the crankshaft, causing it and the wheels to turn.

 T = F * r * sin(theta)
T = torque
F = linear force
r = distance measured from the axis of rotation where the linear force is applied.
Theta = the angle between f and r




Tuesday, 20 September 2016

Energy

The principles of work and energy are important in physics and engineering, especially since they are utilized in a great variety of machines upon which todays industrial technology is based. The terms work and energy have several interpretations in ordinary conversation which include mental activity,farm work, destroying, etc. For man in his environment, the primary source of energy has been the muscles, combustible organic matter mainly in form of wood,coal and petroleum.
 The world energy resources are of two types. Renewable and non renewable energy.
Examples of renewable energy are:
A. Solar energy: when it falls on solar cells, electricity is produced.
B. Wind: this turns windmill, which produces electricity for work in farms.
C. Hydroelectricity: indams water turns generators and produces electricity .

Examples of non renewable resources are:
A. Petroleum: the gas is used in power to produce electricity. Petrol and diesel are used as fuel to drive vehicles. Thus chemical energy is transformed to mechanical energy
B. Cpoal: burning or coal produces much heat to boil water in turbines for production of electricity, and also for drivingvof trains and ships.
C. Nuclear energy: this produces enermous heat to operate turbines and drive ships and air crafts.

Sunday, 5 June 2016

How a generator works

A generator produces electricity by converting mechanical energy to electrical energy. It operates on the principle of electromagnetic induction.
Electromagnetic induction is the production of voltage across an electric conductor due to its movement within an electric field. If a conductor magnetic field, electricity is produced.
In a generator, copper wire is wounded around a metal rod inside a magnetic field. Once the metal rod spins with the copper wire inside the stator which houses the magnets and electricity is produced.
A petrol engine is attached to the generator to spin the metal rod.
When the generator is working, fuel is supplied to the engine from the tank, the spark plug ignites the fuel, the fuel burns rapidly thereby forcing the piston down, the piston is connected to the crankshaft which rotates as the piston moves upward and downward. The crankshaft rotates the metal rod in the generator.

Saturday, 28 May 2016

Capacitors

Ever wondered what a capacitor is and what it is used for?
A capacitor is simply two conductors that are separated by an insulator. The two conductors usually carry an equal and opposite charge such that total charge on the capacitor as a whole is zero. A capacitor is an electrical device that stores electric charge.
 
Charging and discharging a capacitor
Let's imagine a capacitor with two plates A and B. When a capacitor is connected to a battery, electrons flow from the negative pole of the battery on to plate A of the capacitor. At the same rate, electrons flow from the plate B of the capacitor towards the positive terminal of the battery. Positive and negative charges thus appear on the  plates. As the charges accumulates, the potential difference between A and B increases and the charging current reduces to zero when the potential difference becomes equal to the battery voltage.
When the battery is disconnected, the capacitor stays fully charged. To discharge the capacitor, the plates are joined with a thick wire and electrons flow from plate A to plate B until the positive charge on B is completely neutralized. A current thus flows for a time in the wire and at the end of time, the  charges on the plate becomes zero.
The ability of the capacitor to store charge is called the capacitance of capacitor and the unit is farad.

Uses of capacitor
Capacitors have many uses in electrical circuits. They are,
- Tuning in radio circuits
- Smoothening rectified current from DC suppliers
- Elimination of sparking in switches
- Storage of large quantities of charge
- Blocking of noise in an ac amplifier

Friday, 27 May 2016

A spark plug

A spark plug is what gives the cold fuel its hot behaviour and the energy to force the piston downward. It generates the electrical spark to ignite the fuel. The battery supplies the energy which is intensified by the ignition coils. The spark plug generates the spark by forcing the electrical charge to jump a gap in the lower part of the plug which is inside the cylinder.
To enable a spark to jump the gap, enough quantity of voltage must be made available by the ignition system.
In case you don't know, you can only find a spark plug in a petrol engine.

Thursday, 26 May 2016

How a camera works

The simple camera is similar is in principle to the human eye. The camera is used in taking photographs of an object or a view. It is made up of a light proof box with a converging lens in front and and a light sensitive film at the back. A provision is made for adjusting the distance between the lens and the film, so objects in front of the lens can always be focused on the film by the converging lens. A better image can be formed by replacing the converging lens by different lenses.
A shutter of variable speed between the lens and the film shutts off light from the film and a diaphragm regulates the size of an aperture which controls the amount of light energy going into the film.
In taking a photograph, the camera is pointed at the object and the focusing ring is used to adjust the distance of the lens from the film until a sharp image is formed on the film. When a button is pressed, the shutter quickly opens and closes, exposing the film, for a brief period to light from the object. After the photograph is taken, the film is wound in between the spools.  

Friday, 13 May 2016

How a break system works

A brake is a device used for stopping moving vehicle.
The hydraulic brake is an arrangement which uses break fluid containing ethylene glycol to transfer pressure from the master cylinder to the slave cylinders at each wheel.
Car brakes use the hydraulic principle to to transmit pressure from the foot pedal to the brake. The foot brake of a car operates like a hydraulic press. The movement of the foot pedal operates a piston in the master cylinder and a hydraulic fluid transmits the pressure to slave cylinders which operates the brakes at each wheel. By properly calculating the diameters of the master and slave cylinders, the correct force can be obtained on the brakes of the wheels.
However, it is important in a car braking system that no air should enter the pipe containing the hydraulic fluid. Air unlike liquids, can be compressed, so with air present the brakes will not work properly.