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What is the voltage in the secondary coil if the primary coil is supplied with 120V?
I assume that you are speaking theoretically, as it is unlikely that a practical transformer will have just ten turns ('loops') in its secondary coil. In any event, you have not provided sufficient information to be able to answer your question, as it's necessary to know how many turns there are on the primary winding.
In a two coil system the induced potential difference in the secondary coil depends on?
In a two-coil system, the induced potential difference in the secondary coil depends on several factors: the rate of change of magnetic flux through the coil, the number of turns in the secondary coil, and the strength of the magnetic field produced by the primary coil. According to Faraday's law of electromagnetic induction, the induced voltage is proportional to the rate of change of the magnetic field and the coil's turns. Additionally, the orientation and distance between the coils can also affect the induced potential difference.
A step-down transformer has 525 turns in its secondary and 12500 turns in its primary If the potential difference across the primary is 3510 V what is the potential difference across the secondary?
The potential difference across the secondary coil will be 147.42 Volts
What happens when an alternating potential difference is applied across the primary coil of a transformer.?
When an alternating potential difference is applied across the primary coil of a transformer, it creates an alternating current that generates a changing magnetic field around the coil. This changing magnetic field induces a voltage in the secondary coil through electromagnetic induction, allowing electrical energy to be transferred from the primary to the secondary coil. The transformer operates on the principle of mutual induction, and the ratio of the number of turns in the primary and secondary coils determines the voltage increase or decrease across the secondary coil.
What is the difference between current coil and voltage coil?
These terms apply to the coils inside a wattmeter. 'Pressure coil' is an archaic term for 'voltage coil', which is connected in parallel with the supply, while the 'current coil' is connected in series with the load.
What is the voltage in the secondary coil if the primary coil is supplied with 120V?
I assume that you are speaking theoretically, as it is unlikely that a practical transformer will have just ten turns ('loops') in its secondary coil. In any event, you have not provided sufficient information to be able to answer your question, as it's necessary to know how many turns there are on the primary winding.
In a two coil system the induced potential difference in the secondary coil depends on?
In a two-coil system, the induced potential difference in the secondary coil depends on several factors: the rate of change of magnetic flux through the coil, the number of turns in the secondary coil, and the strength of the magnetic field produced by the primary coil. According to Faraday's law of electromagnetic induction, the induced voltage is proportional to the rate of change of the magnetic field and the coil's turns. Additionally, the orientation and distance between the coils can also affect the induced potential difference.
What is the current in the secondary coil fi the current in the primary coil is 5.0A 10 loops on primary coil and 20 on secondary coil?
If I am not wrong then you have asked about a transformer. And its a current transformer. By theory of voltage transformer we know that Vs/Vp = Ns/Np So for answering your question we need the value of number of turns in primary and secondary coil. But you can use this equation to find your answer if you have other values. By using ohmic law you can convert voltage to current.
A step-down transformer has 525 turns in its secondary and 12500 turns in its primary If the potential difference across the primary is 3510 V what is the potential difference across the secondary?
The potential difference across the secondary coil will be 147.42 Volts
What happens when an alternating potential difference is applied across the primary coil of a transformer.?
When an alternating potential difference is applied across the primary coil of a transformer, it creates an alternating current that generates a changing magnetic field around the coil. This changing magnetic field induces a voltage in the secondary coil through electromagnetic induction, allowing electrical energy to be transferred from the primary to the secondary coil. The transformer operates on the principle of mutual induction, and the ratio of the number of turns in the primary and secondary coils determines the voltage increase or decrease across the secondary coil.
What is difference between solenoid and coil?
Solenoid has a longer length compared to its diameter. The Distance between two loops in a solenoid is longer. while Coil has the bigger diameter. The distance between two loops in a coil is shorter compared to its diameter.
What is a long coil of wire with many loops?
armature
What is the effect of moving into a coil of more loops?
Moving into a coil with more loops increases the magnetic flux linked with the coil, resulting in a higher induced electromotive force (emf) in the coil. This leads to a stronger current being induced in the coil due to Faraday's law of electromagnetic induction.
What is the difference between current coil and voltage coil?
These terms apply to the coils inside a wattmeter. 'Pressure coil' is an archaic term for 'voltage coil', which is connected in parallel with the supply, while the 'current coil' is connected in series with the load.
What is a long coil of wire with many loops called?
a long wire with many coils is called a coil
What are many loops of wire placed one on top of the other?
Coil :)
What is the difference of step up and step down in terms of the no of loops in the secondary coil?
Well transformers are used to either raise the voltage (step-up) or lower the voltage (step-down). Transformers have a high voltage winding (HV) and Low voltage winding (LV). If being used as step down then the supply will be connected to the winding with more turns and load will be connected to winding with fewer turns. This is reffered to as the turns ratio N1/N2 .If the ratio is 1/1 and 120V applied then the secondary voltage is 120v. If N1/N2 is 2/1 then there are twice and many primary turns as secondary turns and if 120 V applied to primary there would be 60 V on secondary.
