Title: Comparison with another similar project
Objective:
- To study about previous project.
- To collect the data and do some research about project requirements and concept
Method:
- Do some research about similar project on Internet website.
- Learn how to install it and how it work.
Result:
The magnetic flux developed around the coil being proportional to the amount of current flowing in the coils windings as shown. If additional layers of wire are wound upon the same coil with the same current flowing through them, the static magnetic field strength would be increased. Therefore, the magnetic field strength of a coil is determined by the ampere turns of the coil.
The magnetic flux developed around the coil being proportional to the amount of current flowing in the coils windings as shown. If additional layers of wire are wound upon the same coil with the same current flowing through them, the static magnetic field strength would be increased. Therefore, the magnetic field strength of a coil is determined by the ampere turns of the coil.
With
more turns of wire within the coil the greater will be the strength of the
static magnetic field around it But what if we reversed this idea by
disconnecting the electrical current from the coil and instead of a hollow core
we placed a bar magnet inside the core of the coil of wire. By moving this bar
magnet “in” and “out” of the coil a current would be inducted into the coil by
the physical movement of the magnetic flux inside it. Likewise, if we kept the
bar magnet stationary and moved the coil back and forth within the magnetic
field an electric current would be induced in the coil. Then by either moving
the wire or changing the magnetic field we can induce a voltage and current
within the coil and this process is known as Electromagnetic Induction and is
the basic principal of operation of transformers, motors and generators. Electromagnetic
Induction was first discovered way back in the 1830′s by Michael Faraday.
Faraday noticed that when he moved a permanent magnet in and out of a coil or a
single loop of wire it induced an Electromotive Force or emf, in other words a
Voltage, and therefore a current was produce. So what Michael Faraday
discovered was a way of producing an electrical current in a circuit by using
only the force of a magnetic field and not batteries. This then lead to a very important
law linking electricity with magnetism,Faraday’s Law of Electromagnetic
Induction. When the magnet shown below is moved “towards” the coil, the pointer
or needle of the Galvanometer.
As for the conclusion, by using electromagnetic seems to be more efficient but it is high in costing to buy its equipment and need to plan at the place where many people will come and step on it rather than the stair that people need to walk on it.
