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YESA solenoid is a coil of wire, which turns into a magnet when a?current?flows through
Energy transmitted through a tight coil of wire
You know that each 'wrap' or turn of wire in the coil has to go all the way around the coil-form, and you know how to calculate the distance around a circle. So all you have to do is count the number of times the wire goes around the coil, measure the coil's diameter, calculate its circumference, and multiply that by the number of turns in the coil.
The flux density of that coil becomes greater.
When a wire has an electric current run through it it produces a magnetic feild. A coil of wire (also called a selonoid) produces a strong magnetic feild perpindicular to the turns of wire when a current is run through it. This is also known as electric magnet. Its also worthy to note that speakers work based off of this concept
YESA solenoid is a coil of wire, which turns into a magnet when a?current?flows through
it depends on what is your low volatage. the turns of coil it's according to what is the voltage they are,When the coil / coil is equail voltage/voltage
120 v
-- Increase the current (amperes) flowing through the coil of wire that surrounds the electromagnet. -- Increase the number of 'turns' of wire in the coil.
The number of turns in the coil of wire, the electrical current flowing through the coil, and the presence of an iron core inside the coil.
Energy transmitted through a tight coil of wire
The inductor symbol resembles a coil of wire of 3 to 5 turns.
You know that each 'wrap' or turn of wire in the coil has to go all the way around the coil-form, and you know how to calculate the distance around a circle. So all you have to do is count the number of times the wire goes around the coil, measure the coil's diameter, calculate its circumference, and multiply that by the number of turns in the coil.
IT maybe possible, coil the wire around a pen tightly so that turns touch each other. Coil it till some length, then measure the number of turns and the total length of your coil, then divide. Its inaccurate but wud do the job. I wud use a screw gauge if I had to measure.
The strength of the magnetic field inside the coil increases.
The flux density of that coil becomes greater.
Divide the amount of turns in the secondary into 32 V and you'll get 8. Now multiply 8 times 60 turns and you'll get 480V.