How can the magnetic field produced around a current carrying be detected?

The magnetic field produced around a current carrying conductor be detected​ using a magnetic compass. If you place a magnetic compass near the apparatus that you have set, the needle ‘will’ deflect. The deflection of the needle is caused by the magnetic field around the current carrying conductor.

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What factors influence the magnetic field around a current carrying conductor?

Magnetic field due to a current-carrying conductor depends on the current in the conductor and distance of the point from the conductor. The direction of the magnetic field is perpendicular to the wire.

How will you show that the magnetic field produced by a current carrying?

Answer: Magnetic field produced by electric current is decreased as the distance of the current is increased from the wire can be shown with the help of a magnetic compass. Explanation: When a magnetic compass is placed close to the current carrying conductor, it shows more deflection.

What are the factors on which the magnetic field produced by a current carrying conductor depend?

1 Answer. Factors on which the magnetic field produced by a current carrying conductor depends : (i) Current passing through the conductor. (ii) Distance of the magnetic compass from the conductor.

How can you show that the magnetic field produced by electric current in the wire decreases as the distance from the wire decrease?

So,when we put magnetic compass near the wire it will show greater deflection than when we put magnetic compass farther from the current carrying wire.So,by using magnetic compass we can easily show that magnetic field is decreased when length of wire increases. Please mark me as brainliest.

How can the magnetic field around a current carrying conductor be detected?

Answer. If we bring a magnetic needle or a compass near a current carrying conductor and if the needle of the compass deflects then we can detect magnetic field around a current carrying conductor.

How does the magnetic field produced by a current carrying straight wire depends inversely on the distance from it?

(ii) Distance from the wire: When a certain amount of current is passed and, if the wire is moved away from the compass needle, deflection decreases. This shows that the magnitude of the magnetic field produced by a given current in the wire is inversely proportional to the distance from the wire.

How can we show that the magnetic field produced by a given electric current in the wire decreases as the distance from the wire increases?

For a given current carrying electric wire, place a compass needle near the wire. Now if we move the compass away from the wire, the deflection in the needle continuously decreases. It shows that magnetic field is decreasing on increasing the distance from the wire.

On what factors the strength and direction of magnetic field around a current carrying conductor depends on?

Thus he inferred that the strength and direction of the magnetic field depends on the magnitude and direction of current.

What kind of magnetic field is produced by a straight current carrying conductor?

When electric current is carried by a straight wire, it produces magnetic field lines in the form of concentric circles.

How is the strength of magnetic field at a point near a current carrying wire related to the current?

The strength of magnetic field at a point due to this current carrying conductor is directly proportional to the current. It means the strength of magnetic field increases with increase in the value of current.

Why is it that if a current carrying coil has N turns the field produced at any point is N times as large as that produced by a single turn?

There is a circular coil having N turns, the field produced is n times as a large as that produced by a single turn. It happens because the current in each circular turn has the same direction and the field due to each turn just adds up. Was this answer helpful?

What happens when the magnetic field produced by a given current in conductor as the distance from it increases?

The deflection in compass further decreases as the compass is taken farther away from the current carrying wire. This shows that the magnetic field produced by a given electric current in the wire decreases as the distance from the wire increases.

Is it true to say that magnetic field strength produced by a current carrying straight wire decreases as the distance from the wire is increased?

Thus, the strength of the magnetic field is inversely proportional to the distance from the current carrying conductor. That is, as the distance increases the magnetic field decreases. Hence, the statement is false.

How is the strength of the magnetic field at a point near a wire related to the strength?

The magnitude of magnetic field is directly proportional to the strength of the electric current flowing in the wire.

On what effect of an electric current does an electromagnet work?

Electromagnet works on the magnetic effect of current.

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How is the magnetic field around a straight conductor affected if current through the conductor is increased and distance of the point of observation is increased?

Answer. (a) On increasing the current through the conductor the strength of magnetic field will increase. Explanation: The strength of the magnetic field at a distance r from a current carrying conductor is given by the relation: B = (μo/2π)I/r. So increasing the current will increase the magnetic field strength.

How does the magnetic field look in the case of straight current carrying conductor?

When current is passed through a straight current-carrying conductor, a magnetic field is produced around it. The field lines are in the form of concentric circles at every point of the current-carrying conductor.

What is the relationship between the current flowing and the strength of the magnetic field produced?

The intensity of the magnetic field around the conductor is proportional to the distance from the conductor and by the amount of current flowing through it. The magnetic field generated around a straight length of current-carrying wire is very weak even with a high current passing through it.

What is true about the magnetic field produced due to a straight current carrying conductor *?

The magnetic field produced by a current in a straight wire has no poles .

How is the magnetic field around a wire related to the current?

When a current flows in a wire, it creates a circular magnetic field around the wire. This magnetic field can deflect the needle of a magnetic compass. The strength of the magnetic field is greater closer to the wire, and increases if the current increases.

How is the strength of the magnetic field at a point near a straight conductor related to the strength of the electric current flowing in the conductor?

Answer. As a current flowing in the straight current conductor carrying wire increases it’s strength of magnetic field also increases. This means current flowing in the conductor is directly proportional to it’s strength of magnetic field.

How will the strength of magnetic field at a point around a current carrying conductor change when?

The strength of magnetic field due to a current-carrying straight conductor is inversely proportional to the normal distance between the conductor and the point where magnetic field is to be determined. So as the point as moved away the strength of the magnatic field goes on decreasing.

How can you generate induced current in the circuit?

The generation of an induced current when a conductor is placed in the region of changing magnetic field is called Electromagnetic Induction. The current will only induce in the conductor coil if the magnetic field around the coil changes. So either the coil or the magnet needs to move towards or away from each other.

How does the strength of the magnetic field change with distance?

If the distance between two magnets with like poles gets smaller, then the repelling force between them will get bigger, because the force between two magnets gets stronger as they get closer together, and weaker as they get farther apart.

How does the magnetic field produced by a current carrying circular wire at a given point vary with current and number of turns of wire?

We know that the magnetic field produced by a current carrying wire at a given point depends directly on the current passing through it. So if we increase the number of turns of the coil, more current will pass through the wire which indicates that the magnetic field associated with it also increases.

Why is that if a current carrying coil?

Current in a circular loop produces the filed. If number of turns increases direction of the current will be same as that of the direction of the current in single turn. Hence, at the end the field due to each turn just adds up.

Why does a compass needle get deflected when brought near a bar magnet?

Answer. The compass needle itself is a tiny magnet. When a bar magnet is brought near it, the bar magnet exerts its magnetic force on the compass needle. Hence, it gets deflected.

What are the two uses of magnetic compass?

1) To detect the directions. 2) To check the polarity of other magnet and to plot magnetic field lines.

How can it be proved that a magnetic field exists around a current carrying metallic wire?

Answer: If we bring a compass needle near wire and it shows deflection which proves that there is magnetic field due to current carrying wire .

What is the nature of magnetic field produced by a current carrying solenoid?

The magnetic field inside of a current-carrying solenoid is very uniform in direction and magnitude.

What is the relation between magnetic field and distance of compass from the conductor?

Magnetic field is directly proportional to the current passing through the wire and it is inversely proportional to the distance from the wire.

Does a current carrying conductor experience some force when kept parallel to the magnetic field?

The conductor does not experience any force.

On what effect of an electric current does an electromagnet work in Brainly?

An electromagnet works on the principle of magnetic effect produced by the electric current.

How will the magnetic field around a current carrying straight conductor be affected on changing the direction of flow of current in the conductor?

1 Answer. (i) The strength of magnetic field around a straight current conductor increases on increasing the strength of current in the conductor or vice versa. (ii)The direction of magnetic field around a straight current carrying conductor gets reversed if the direction of current through that conductor is reversed.

How is the magnetic field due to a straight current carrying wire affected if current in the wire is a decreased B reversed?

Answer. (a) On decreasing current in the wire, the deflection of compass needle decreases which implies that the strength of magnetic field around the wire decreases. (b) On reversing the direction of current the magnetic needle of compass reverses because the direction of magnetic field reverses.

How will the magnetic field produced at a point due to a current carrying straight conductor change if we increase the current flowing through the conductor?

(i) The magnitude of magnetic field produced by a current carrying circular coil at a point is directly proportional to the current flowing through the circular coil . Thus as the amount of current flowing through the circular coil increases, the magnetic field produced at a point in a circular coil increases.

Do the magnetic field lines around a straight current carrying conductor?

The Magnetic field lines around a straight conductor carrying current are concentric circles whose centres lie on the wire. The direction of magnetic field lines can be determined using Right-Hand Thumb Rule.

How does the magnetic field around a straight conductor vary with distance from the conductor?

Magnetic field produced by constant current in the wire decreases as the distance from the wire increases. Thus, the concentric circles representing the magnetic lines of force are shown bigger and rarefied as the distance from the wire increases.

What kind of magnetic field is produced due to current carrying straight conductor?

When electric current is carried by a straight wire, it produces magnetic field lines in the form of concentric circles.

Why does magnetic field increase with current?

The small magnetic fields caused by the current in each turn of the coil add together to make a stronger overall magnetic field. The strength of the magnetic field around a solenoid can be increased by: increasing the number of turns on the coil. increasing the current.

How is a magnetic field produced in a wire?

Whenever current travels through a conductor, a magnetic field is generated. Whenever current travels through a conductor, a magnetic field is generated, a fact famously stumbled upon by Hans Christian Ørsted around 1820. Depending on the shape of the conductor, the contour of the magnetic field will vary.

Which of the following is produced around a conductor when current is flowing through the conductor?

An electric current flowing through a conductor produces magnetic field in its surrounding region.

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