Search for notes by fellow students, in your own course and all over the country.
Browse our notes for titles which look like what you need, you can preview any of the notes via a sample of the contents. After you're happy these are the notes you're after simply pop them into your shopping cart.
Document Preview
Extracts from the notes are below, to see the PDF you'll receive please use the links above
Magnetostatic Field
Chapter 7
1
Magnetostatic Field
Chapter 7
2
Magnetostatic Field
Chapter 7
3
Chapter 7 Magnetostatic Field
7
...
2 Ampere’s Circuit Law
Jean-Baptiste Biot Félix Savart
André-Marie Ampère
4
Chapter 7 Magnetostatic Field
7
...
2 Ampere’s Circuit Law
5
Biot-Savart’s Law
BiotBiot-Savart’s Law
Biot-Savart’s law states that the differential
magnetic field intensity dH produced at a
point P, by the differential current element l
dl is proportional to the product I dl and the
sine of the angle α between the element and
the line joining P to the element and is
inversely proportional to the square of the
distance R between P and the element
7
BiotBiot-Savart’s Law
Biot-Savart’s law states that the differential magnetic field
intensity dH produced at a point P, by the differential
current element l dl is proportional to the product I dl and
the sine of the angle α between the element and the line
joining P to the element and is inversely proportional to the
square of the distance R between P and the element
8
BiotBiot-Savart’s Law
9
BiotBiot-Savart’s Law
10
BiotBiot-Savart’s Law
11
BiotBiot-Savart’s Law Formula
12
Ampere’s Circuit LawMaxwell’s Equation
Ampere’s Circuit Law
Ampere’s Circuit law states that the line
integral of the tangential component of H
around a closed path is the same as the net
current Ienc enclosed by the path
...
The loop and the
straight conductors are separated by distance of 2m
...
Each wire is having a radius of 1 cm and the wires
are separated 8 cm
...
Find magnetic field intensity at
a) ( 4 cm, 0)
b) (8 cm, 4 cm)
28