The horizontal and verticle components o...

The horizontal and verticle components of earth's field at a place are 0.22 gauss respectively. Calculate the angle of dip and resultant intensity of earth's field.

Topper's Solved these Questions

MAGNETISM
SL ARORA|Exercise Problems From Competitive Examinations|13 Videos
MAGNETISM
SL ARORA|Exercise Based on Coulomb s law and dipole moment of a magnet|5 Videos
MAGNETIC EFFECTS OF CURRENT
SL ARORA|Exercise TYPE C|4 Videos
OPTICAL INSTRUMENTS
SL ARORA|Exercise Problems for self practice|35 Videos

Similar Questions

Explore conceptually related problems

The horizontal and veritical components of eaths's field at a place ar 0.22 gauss of 0.38 gauss, respectively. Calculate the angle of dip and resultant intensity of earth's field.

Calculate the angle of dip at a place where the horizontal and vertical components of Earth's magnetic field are 0.24 gauss and 0.36 gauss respectively. Also, calculate the resultant intensity of Earth's field.

The vertical and horizontal components of earth's magnetic at a place are 0.2 G and 0.3464 G respectively . Calculate the angle of dip and earth's magnetic field at that place .

The horizontal and vertical components of earth's magnetic field at a place are 0.3G and 0.52G. The earth's magnetic field and the angle of dip are

Horizontal and vertical components of earth’s magnetic field at a place are equal. The angle of dip at that place is ________.

If at a certain place B_H and B_V are horizontal and vertical components of earth's magnetic field respectively and delta is the angle of dip at the same place then

If horizontal and vertical components of the earths magnetic field are equal at a certain place, then the angle of dip at that place will be

SL ARORA-MAGNETISM-Based on (i) Earth s Magnetism (ii) magnetic field of a bar magnet

The horizontal and verticle components of earth's field at a place are...
Text Solution
|
A ship is sailing due west according in Mariner's compass . If the del...
Text Solution
|
A ship is sailing due east according to Mariner's compass . If the dec...
Text Solution
|
The horizontal component of earth's magnetic field is sqrt3 times the ...
Text Solution
|
The ratio of the vertical component to the horizontal component of ear...
Text Solution
|
The horizontal component of the earth's magnetic field is 0.22 Gauss a...
Text Solution
|
Calculate earth's surface magnetic field at a place , where an angle o...
Text Solution
|
Find the value of the vertical components of earth's magnetic at a pla...
Text Solution
|
The vertical and horizontal components of earth's magnetic at a place ...
Text Solution
|
A vertical wire in which current is flowing produces a neutral point w...
Text Solution
|
A compass needle whose magnetic moment is 60Am^2 pointing geograhic no...
Text Solution
|
A magnetic needle free to rotate about the vertical direction (compass...
Text Solution
|
The true dip at a place is 30^(@) . What is the apparent dip when the ...
Text Solution
|
The values of the apparent angles of dip in two planes at right angles...
Text Solution
|
A dip circle lies initially in the magnetic meridian. If it is now rot...
Text Solution
|
A magnetic needle of length 10cm, suspended at its middle point throug...
Text Solution
|
A long bar magnet has a pole strength of 10 Am. Find the magnetic fiel...
Text Solution
|
Calculate the magnetic field due to a bar magnet 2cm long and having p...
Text Solution
|
A bar magnet of length 0.1 m has a pole strength of 50 Am . Calculate ...
Text Solution
|
A bar magnet has a length of 8cm. The magnetic field at a point at a d...
Text Solution
|
The magnetic moment of a current carrying loop is 2.1xx10^(-25) ampxxm...
Text Solution
|