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a. IUU 6.55 .106 U. UJ Find the magnetic induction at the point o if the...
EXERCISES 14-1 Find the magnetic induction produced by the currents of Figure 13-4 at the point...
EXERCISES 14-1 Find the magnetic induction produced by the currents of Figure 13-4 at the point on the x axis that is midway between them. 2 0 C' у C р α Figure 13-4. The two currents of Exercise 13-3.
3. Starting with Ampere's law, find the magnetic field at r from the axis, inside and...
3. Starting with Ampere's law, find the magnetic field at r from the axis, inside and outside of a circular toroid, figure below, of major radius R and minor radius a, wrapped with N turns of wire carrying current I. Evaluate for r=R=5cm, a=2cm,N=1000,1=3A
This is my experiment about Earth magnetic field induction by tangensgalvonometer. I must additio...
This is my experiment about Earth magnetic field induction by
tangensgalvonometer. I must additional conclusion for my
experimental values and Bo=1.68x10^-5 T.
Could you compare Bo=1.68x10^-5 and my experimental values.
experiment did same city which is Bo=1.68x10^-5
I need conclusion about this case. thank you.
Results: Bo (1-1 )-7.66x10 Be(l 2-0107 Be (1-3 )-1.72x10 · Be (1-3, 2 )" f,79x16 Bo (Rī9小1.GC-er「 Measurement of the horizontal component of Earth's magnetic field induction by tangensgalvanometer In each point the Earth's magnetic...
problem-3 plz 3. (40) In Fig.1, (a) 0 r< a, find B, VxB, and magnetic energy...
problem-3 plz
3. (40) In Fig.1, (a) 0 r< a, find B, VxB, and magnetic energy per unit length. (b) a<r< b, find B, VxB, and magnetic energy per unit length. (c) b<r, findB, VxB, and magnetic energy per unit length. (d) Find the inductance per unit length. (3+3+4)x3+ 10) 4. (20) Fig. 2 shows a side view of a cylindrical bar magnet. (a) Find H di for a dashed contour and explain. (b) Describe the direction of H inside...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
EXERCISES 14-1 Find the magnetic induction produced by the currents of Figure 13-4 at the point on the x axis that is midway between them. 2 0 C' у C р α Figure 13-4. The two currents of Exercise 13-3.
3. Starting with Ampere's law, find the magnetic field at r from the axis, inside and outside of a circular toroid, figure below, of major radius R and minor radius a, wrapped with N turns of wire carrying current I. Evaluate for r=R=5cm, a=2cm,N=1000,1=3A
This is my experiment about Earth magnetic field induction by
tangensgalvonometer. I must additional conclusion for my
experimental values and Bo=1.68x10^-5 T.
Could you compare Bo=1.68x10^-5 and my experimental values.
experiment did same city which is Bo=1.68x10^-5
I need conclusion about this case. thank you.
Results: Bo (1-1 )-7.66x10 Be(l 2-0107 Be (1-3 )-1.72x10 · Be (1-3, 2 )" f,79x16 Bo (Rī9小1.GC-er「 Measurement of the horizontal component of Earth's magnetic field induction by tangensgalvanometer In each point the Earth's magnetic...
problem-3 plz
3. (40) In Fig.1, (a) 0 r< a, find B, VxB, and magnetic energy per unit length. (b) a<r< b, find B, VxB, and magnetic energy per unit length. (c) b<r, findB, VxB, and magnetic energy per unit length. (d) Find the inductance per unit length. (3+3+4)x3+ 10) 4. (20) Fig. 2 shows a side view of a cylindrical bar magnet. (a) Find H di for a dashed contour and explain. (b) Describe the direction of H inside...
1. An electron moves in a circular path in the magnetic field of an electromagnet. The plune of the electron's Sicular path is parallel to the smooth vole faces of the electromagnet. In the region where the electron is moving the magnetic field is uniform and has magnitude 0,50 T. The electron moves with a speed of 1.5 x 10 m/s. a. If someone could observe the electron from the north pole of the electromagnet, would the electron inove clockwise...
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