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What else can I help you with?
What happen if the number of loops in the primary and secondary coils in a transformer are the same?
If the number of turns in the primary is the same as the secondary, this would be an isolation transformer. Primary and secondary voltages should match (minus the inherent transformer losses), as should the current.
How can transistors act as amplifiers or switches?
by creating two circuit loops
Loops of wire that turn in the magnetic field of an armature create current?
alternating
What is Enameled copper wire?
Enameled copper wire is copper wire coated by a insulating paint usually colored red. The paint is much thin rubber/plastic sleeves that other wires have, yet provide almost the same amount of insulation. Enameled wire is primarily used in the construction of electromagnets since it allows more loops to be packed into a smaller volume.
What is a drop loop?
do you mean drip loop? its where a cable coming down a wall, loops down then up before going through the wall. means water running down the cable will not enter wall with cable
What happens to the amount of voltage induced by pushing a magnet through loops of wire if the number of loops is doubled?
Also doubled.
Will increasing the number of loops in a solenoid cause the strength of its magnetic field to decrease?
No, increasing the number of loops in a solenoid will actually increase the strength of its magnetic field. This is because more loops increase the amount of current flowing through the coil, which in turn increases the magnetic field produced.
What factors may affect the strength of the magnetic field generated around a coil?
Number of loops and Battery voltage
What factors may affect the strength of the magnetic field generated around the coil?
Number of loops and Battery voltage
How can you make a electromagnetic?
You can make an electromagnet stronger by increasing the number of loops in the coil or by passing more electricity through the coils or by chaging the core to a be replaced by a better conductor.
Why the magnetic field strength of an electromagnet be reduced in decrease the number of loops in the coil?
Reducing the number of loops in the coil decreases the amount of current flowing through the electromagnet, leading to a weaker magnetic field strength. The strength of the magnetic field produced by an electromagnet is directly proportional to the number of turns of wire in the coil, so fewer loops result in a weaker overall magnetic field.
How did Rome expansion affect the plebeians?
It DIDN'T BOOYAH
Would spinning the loops on an electromagnet make it stronger?
Spinning the loops on an electromagnet will not make it stronger. The strength of an electromagnet depends on factors such as the number of loops in the coil, the current passing through the coils, and the core material used in the electromagnet. Spinning the loops will not change these factors.
How do you create energy from any movements?
The common way to do this is with a generator. The basic principle is quite simple: the movement makes wire loops move in a magnetic field; this induces electricity in the wire loops.
Where can one purchase drum loops?
Drums loops can be purchased at a number of different online sites. The web domains "TheLoopLoft" and "DrumsOnDemand," for example, each sell drum loops.
Why don't you look at the number of loops a solenoid has at a different time then the voltage in the strength of an electromagnet?
The number of loops in a solenoid determines its magnetic field strength, while the voltage determines the current passing through the solenoid. These two factors are independent of each other, so changing the number of loops will alter the magnetic field strength, and changing the voltage will affect the current and subsequently the magnetic field strength. Both factors play a key role in determining the overall strength of the electromagnet.
What would not affect the strength of an induced current?
The strength of an induced current is not affected by the resistance of the circuit it flows through. The factors that affect the strength of an induced current are the rate of change of magnetic flux, the number of loops in the coil, and the material of the coil.
