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What is direciton of the force due to the earth's magnetic field on a wire carrying a current vertically downward?
The force due to Earth's magnetic field on a wire carrying a current vertically downward would be perpendicular to both the current flow and the magnetic field lines, according to the right-hand rule. This force would either point to the east or west depending on the direction of the magnetic field lines.
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How does a magnetic field impact a current-carrying wire?
A magnetic field can exert a force on a current-carrying wire, causing it to move or experience a torque. This is known as the magnetic force on a current-carrying conductor, according to the right-hand rule.
In what direction is a force exerted on a current-carrying wire when it is placed in a magnetic field?
The force exerted on a current-carrying wire placed in a magnetic field is perpendicular to both the direction of the current and the magnetic field.
What is the direction of the magnetic field around a current-carrying wire?
The magnetic field around a current-carrying wire is circular and perpendicular to the direction of the current flow.
Where on Earth has the most magnetic pull?
The magnetic North Pole, located in the Arctic Ocean, has the most magnetic pull on Earth. It is the point where the Earth's magnetic field points vertically downwards.
When is the force on a current carrying wire in a magnetic field at its strongest?
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Why at the earths geometric north pole does the north end of a compass get pulled strongly downward?
Because the magnetic north points vertically downwards.
What will be the position of the freely suspended magnet in a region over the earths magnetic pole?
The freely suspended magnet will align itself vertically, with its north pole pointing directly downward towards the Earth's magnetic pole. This is because the magnetic field lines are vertical at the magnetic poles.
What is the movement of a compass needle that is free to rotate in any direction as you fly from the north magnetic pole to the south magnetic pole?
As you fly from the north magnetic pole to the south magnetic pole, the compass needle will initially point downward at the north magnetic pole due to the steep magnetic field lines. As you move toward the equator, the needle will gradually level out to a horizontal position. Continuing further south, the needle will then begin to tilt upward as you approach the south magnetic pole, ultimately pointing more vertically upward. This behavior illustrates the transition from a downward orientation to a horizontal and then upward orientation of the compass needle in relation to the Earth's magnetic field.
Which way would a compass needle point if you were at the magnetic North Pole of the earth?
If you were at the magnetic North Pole, a compass needle would point directly downward, or vertically, toward the Earth's surface. This is because the magnetic field lines at the magnetic North Pole are oriented almost straight down. Consequently, traditional compass readings become unreliable in this region, as the needle cannot align horizontally.
What recording is where hard disks align the magnetic particles vertically?
perpendicular
How does a magnetic field impact a current-carrying wire?
A magnetic field can exert a force on a current-carrying wire, causing it to move or experience a torque. This is known as the magnetic force on a current-carrying conductor, according to the right-hand rule.
In what direction is a force exerted on a current-carrying wire when it is placed in a magnetic field?
The force exerted on a current-carrying wire placed in a magnetic field is perpendicular to both the direction of the current and the magnetic field.
What is the direction of the magnetic field around a current-carrying wire?
The magnetic field around a current-carrying wire is circular and perpendicular to the direction of the current flow.
Where on Earth has the most magnetic pull?
The magnetic North Pole, located in the Arctic Ocean, has the most magnetic pull on Earth. It is the point where the Earth's magnetic field points vertically downwards.
When a magnetic field is parallel to a current-carrying wire what is the force on the wire?
When a magnetic field is parallel to a current-carrying wire, there is no force acting on the wire. This is because the magnetic force on a current-carrying wire is perpendicular to both the current and the magnetic field.
When is the force experienced by current carrying conductor placed in a magnetic field strongest?
The force experienced by a current-carrying conductor in a magnetic field is strongest when the current and magnetic field are perpendicular to each other, maximizing the force according to the right-hand rule.
When is the force on a current carrying wire in a magnetic field at its strongest?
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