If a magnet is suspended an angle 30^(@)...

If a magnet is suspended an angle `30^(@)` to the magnetic field at any point on eath. Near the north pole.

`tan^(-1)(sqrt3//2)`

`tan^(-1)(sqrt3)`

`(tan^(-1))(3)/(sqrt2)`

`(tan^(-1))(2)/(sqrt3)`

Text Solution

AI Generated Solution

To solve the problem, we need to find the angle of dip (del') at the North Pole when a magnet is suspended at an angle of 30 degrees to the magnetic field. We will use the relationship between the angle of dip and the angle of suspension. ### Step-by-Step Solution: 1. **Understand the Given Information:** - The angle of suspension (θ) = 30 degrees. - The angle of dip (del) at the North Pole = 45 degrees. ...

Topper's Solved these Questions

MAGNETISM AND MATTER
DC PANDEY ENGLISH|Exercise 5.3|15 Videos
MAGNETISM AND MATTER
DC PANDEY ENGLISH|Exercise Medical gallery|1 Videos
MAGNETISM AND MATTER
DC PANDEY ENGLISH|Exercise 5.1|15 Videos
MAGNETICS
DC PANDEY ENGLISH|Exercise MCQ_TYPE|1 Videos
MODERN PHYSICS
DC PANDEY ENGLISH|Exercise Integer Type Questions|17 Videos

Similar Questions

Explore conceptually related problems

The real angle of dip, if a magnet is suspended at an angle of 30^(@) to the magnetic meridian and the dip needle makes an angle of 45^(@) with horizontal, is:

Let V and H be the vertical and horizontal components of earth's magnetic field at any point on earth. Near the north pole

The magnetic south pole of the earth is near the

A long bar magnet has a pole strength of 10 Am . Find the magnetic field at a point on the axis of the magnet at a distance of 5cm from the north pole of the magnet.

The angle of dip at the magnetic pole is

The magnetic pole that points towards the geographical South

A magnet suspended at 30^@ with magnetic meridian makes an angle of 45^@ with the horizontal. What shall be the actual value of the angle of dip?

Sketch the magnetic field lines for a current-carrying circular loop near its centre. Replace the loop by an equivalent magnetic dipole and sketch the magnetic field lines near the centre of the dipole. Identify the difference.

Assertion : When a bar magnet is freely suspended, it points in the north-south direction. Reason : The earth behaves as a magnet with the magnetic field pointing approximately from the geographic south to north.

DC PANDEY ENGLISH-MAGNETISM AND MATTER-5.2

The earth's magnetic field is
Text Solution
|
Magentic meridian is a
Text Solution
|
The angle between the magnetic merdian and geographical merdian is cal...
Text Solution
|
The angle of dip at the magnetic equator is
Text Solution
|
Earth's magnetic field always has a horizontal component except at
Text Solution
|
If H=(1)/(sqrt3)V, then find angle of dip. (where symbols have their u...
Text Solution
|
Let V and H be the vertical and horizontal components of earth's magne...
Text Solution
|
If a magnet is suspended an angle 30^(@) to the magnetic field at any ...
Text Solution
|
The dip at a place is delta. For measuring it, the axis of the dip nee...
Text Solution
|
At a neutral point
Text Solution
|
TANGENT GALVANOMETER
Text Solution
|
Two tangent galvanometer A and B are identical except in their number ...
Text Solution
|
Vibration magnetometer is used for comparing
Text Solution
|
The time period of a freely suspended bar magnet in a field is 2s. It ...
Text Solution
|
A bar magnet suspended freely in a uniform magnetic field is vibrating...
Text Solution
|