Tag: magnetic poles and magnetic compass

Questions Related to magnetic poles and magnetic compass

Multiple choice properties of magnet magnetism physics neutral points magnetic poles and magnetic compass magnetic field

A device used by the sailors to find the direction in which their ship is moving is called .................

  1. horse shoe

  2. curve

  3. magnetic field

  4. magnetic needle

Reveal answer Fill a bubble to check yourself
D Correct answer
Explanation

A device used by the sailors to find the direction in which their ship is moving is called magnetic needle.
A compass contains a magnetic needle pivoted in a horizontal plane that indicates the direction of magnetic north at points on the earth's surface. It is an instrument containing a freely suspended magnetic element which displays the direction of the horizontal component of the Earth's magnetic field at the point of observation.
It is the oldest instrument for navigation and has been a vital tool for navigators at sea for centuries.

Multiple choice properties of magnet magnetism physics neutral points magnetic poles and magnetic compass magnetic field

Two parallel conductors are separated by 5cm. They carry 6A and 2A in the same direction. Between them the location from first at which magnetic needle lies along $B _H$ is

  1. 1.25 cm

  2. 3.75 cm

  3. 2.5 cm

  4. no point exist

Reveal answer Fill a bubble to check yourself
B Correct answer
Explanation

Two parallel conductors carrying currents I1 = 6A and I2 = 2A in the same direction. The magnetic field at distance x from the first conductor is B = (μ0/4π)(2I1/x - 2I2/(d-x)), where d = 5cm. For the magnetic needle to lie along Earth's horizontal field Bh, the net magnetic field must be zero (balanced by Bh). Setting B = 0 gives I1/x = I2/(d-x), so 6/x = 2/(5-x). Cross-multiplying: 6(5-x) = 2x, so 30 - 6x = 2x, giving 30 = 8x, so x = 30/8 = 3.75 cm from the first conductor.

Multiple choice properties of magnet magnetism physics neutral points magnetic poles and magnetic compass magnetic field

A magnetic needle oscillates in a horizontal plane with a period $T$ at a place where the angle of dip is $60^0$. When the same needle is made to oscillate in a vertical plane coinciding with the magnetic meridian, its period will be 

  1. $\frac{T}{\sqrt 2}$

  2. T

  3. 2T

  4. 6T

Reveal answer Fill a bubble to check yourself
A Correct answer
Explanation

In a horizontal plane, the period is T = 2 * pi * sqrt(I / (M * BH)). In a vertical plane, the effective field is the total magnetic field B = BH / cos(delta), where delta is the angle of dip. Thus, T_v = 2 * pi * sqrt(I / (M * B)) = T * sqrt(cos(delta)). With delta = 60 degrees, cos(60) = 1/2, so T_v = T / sqrt(2).

Multiple choice properties of magnet magnetism physics neutral points magnetic poles and magnetic compass magnetic field

When a current of $1$ ampere is passed in a coil lying in the magnetic meridian then a magnetic needle at its centre gives some deflection. If the current in the coil is increased to $\sqrt8$ ampere then at what distance from the centre of the coil will the deflection of needle remains underchanged?

  1. $2R$

  2. $4R$

  3. $8R$

  4. $R$

Reveal answer Fill a bubble to check yourself
B Correct answer
Multiple choice properties of magnet magnetic field moving charges and magnetism magnetic effects of current and magnetism physics neutral points magnetic poles and magnetic compass

The magnetic fields of atoms in a material are grouped together and aligned to form _________.

  1. Strong magnetic fields

  2. An area of magnetic field

  3. A region called magnetic domain

  4. A bar magnet

Reveal answer Fill a bubble to check yourself
C Correct answer
Explanation

A magnetic domain is a region within a magnetic material in which the magnetization is in a uniform direction. This means that the individual magnetic moments of the atoms are aligned with one another and they point in the same direction.

The magnetic fields of atoms in a material are grouped together and aligned to form  region called magnetic domain

Multiple choice properties of magnet magnetic field moving charges and magnetism magnetic effects of current and magnetism physics neutral points magnetic poles and magnetic compass

The smallest magnet available is ___________.

  1. a bar magnet with an area of $1 mm^2$

  2. a spinning electron

  3. a magnetic dipole

  4. a molecule or atom with a magnetic dipole

Reveal answer Fill a bubble to check yourself
B Correct answer
Explanation

An electron is not a spinning ball of charge and the intrinsic spin of particles cannot be understood in such terms. a value of the ratio between the magnetic moment and the angular momentum that is a factor 2 too small.

The smallest magnet available is a spining electron.

Multiple choice properties of magnet magnetic field moving charges and magnetism magnetic effects of current and magnetism physics neutral points magnetic poles and magnetic compass

The magnetic domains of an unmagnetised object are found ___________.

  1. Parallel to each other

  2. Perpendicular to each other

  3. Pointing towards south

  4. Pointing in different direction

Reveal answer Fill a bubble to check yourself
D Correct answer
Explanation

A magnetic domain is the region in which the magnetic fields of atoms are grouped together and aligned. In an unmagnetized object the magnetic domains are pointing at different directions.