An equilateral triangle shaped wire loop with a side length of a= 40.6 cm carries...
An equilateral triangle shaped wire loop with a side length of a
= 40.6 cm carries an electric current of I = 19.7 A as shown in the
figure.
Determine the size of the magnetic field at point P, the center of
the triangle.
Determine the size of the magnetic field at point Q, one of the vertices of the triangle.
Homework Answers
![For part A, the answer is B 8.73x 10T B) The magnetic field is given by 3-4 [sin A+ sing] Ll Here, 1 =197.4 R _ _ × 0.406 =](http://img.homeworklib.com/questions/79ffae80-c32f-11ea-87d1-ad9f7d70cd66.png?x-oss-process=image/resize,w_560)
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An equilateral triangle shaped wire loop with a side length of a= 40.6 cm carries...
A regular hexagon shaped wire loop with a side length of a = 30.6 cm carries...
A regular hexagon shaped wire loop with a side length of a = 30.6 cm carries an electric current of I = 11.9 A as shown in the figure. Determine the size of the magnetic field at point P, the center of the hexagon. 2.69 times 10^-5 T Determine the size of the magnetic field at point Q, one of the vertices of the hexagon.
A regular hexagon shaped wire loop with a side length of a = 41.0 cm carries...
A regular hexagon shaped wire loop with a side length of a =
41.0 cm carries an electric current of I = 12.0 A as shown in the
figure.
Determine the size of the magnetic field at point Q, one of the
vertices of the hexagon.
a P
A square shaped wire loop with a side length of a = 30.8 cm carries an...
A square shaped wire loop with a side length of a = 30.8 cm carries an electric current of I = 13.4 A as Determine the size of the magnetic field at point P, the center of the square. 3.92e8 Wb/m*2 Submit Answer Incorrect. Tries 1/12 Previous Tries Determine the size of the magnetic field at point Q, one of the vertices of the square. Submit Answer Tries 0/12
A regular hexagon shaped wire loop with a side length of a = 52.4 cm carries...
A regular hexagon shaped wire loop with a side length of a =
52.4 cm carries an electric current of I = 18.4 A as shown in the
figure.
Determine the size of the magnetic field at point P, the center of
the hexagon.
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge...
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=5.55 cm. It carries current
I=21 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= ______ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _______ G.
The figure...
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge...
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=4.05 cm. It carries current
I=18 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= _____ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _____ G.
P L...
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge...
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge length L=6.05 cm. It carries current 1=12 A. A P L L What is the magnitude Bo of the magnetic field produced by this current loop at point o in the center of the triangle?: Bo= G. What is the magnitude Bp of the magnetic field produced by this current loop at point P outside the triangle as shown in the figure?: Bp=
electricity and magnetism (2 pt) A loop of wire forming an equilateral triangle carries a steady...
electricity and magnetism
(2 pt) A loop of wire forming an equilateral triangle carries a steady current I. a. Find the magnetic field at the center of loop of wire forming a triangle which carries a steady current I. Let R be the closest distance from the center to the sides the triangle. b. Compare your result to the magnetic field at the center of circle of radius R. In which case is the field greater? Qualitatively explain why.
Please solve and explain how its done. The figure below displays a thin conducting loop shaped...
Please solve and explain how its done.
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge length L=7.05 cm. It carries current I=13.5 A. 1 P L L What is the magnitude Bo of the magnetic field produced by this current loop at point o in the center of the triangle?: G. Bo= What is the magnitude Bp of the magnetic field produced by this current loop at point P outside the triangle...
Electricity and Magnetism: How were these answers obtained? The figure below displays a thin conducting loop...
Electricity and Magnetism: How were these
answers obtained?
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge length L=6.55 cm. It carries current I=10.5 A. I A P L L What is the magnitude Bo of the magnetic field produced by this current loop at point o in the center of the triangle?: Bo= 2.89 2.89 G. What is the magnitude Bp of the magnetic field produced by this current loop at point...
A regular hexagon shaped wire loop with a side length of a = 30.6 cm carries an electric current of I = 11.9 A as shown in the figure. Determine the size of the magnetic field at point P, the center of the hexagon. 2.69 times 10^-5 T Determine the size of the magnetic field at point Q, one of the vertices of the hexagon.
A regular hexagon shaped wire loop with a side length of a =
41.0 cm carries an electric current of I = 12.0 A as shown in the
figure.
Determine the size of the magnetic field at point Q, one of the
vertices of the hexagon.
a P
A square shaped wire loop with a side length of a = 30.8 cm carries an electric current of I = 13.4 A as Determine the size of the magnetic field at point P, the center of the square. 3.92e8 Wb/m*2 Submit Answer Incorrect. Tries 1/12 Previous Tries Determine the size of the magnetic field at point Q, one of the vertices of the square. Submit Answer Tries 0/12
A regular hexagon shaped wire loop with a side length of a =
52.4 cm carries an electric current of I = 18.4 A as shown in the
figure.
Determine the size of the magnetic field at point P, the center of
the hexagon.
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=5.55 cm. It carries current
I=21 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= ______ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _______ G.
The figure...
The figure below displays a thin conducting loop shaped as an
equilateral triangle with the edge length
L=4.05 cm. It carries current
I=18 A.
What is the magnitude
BO of the magnetic
field produced by this current loop at point O in the center of the
triangle?:
BO= _____ G.
What is the magnitude
BP of the magnetic
field produced by this current loop at point P outside the triangle
as shown in the figure?:
BP= _____ G.
P L...
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge length L=6.05 cm. It carries current 1=12 A. A P L L What is the magnitude Bo of the magnetic field produced by this current loop at point o in the center of the triangle?: Bo= G. What is the magnitude Bp of the magnetic field produced by this current loop at point P outside the triangle as shown in the figure?: Bp=
electricity and magnetism
(2 pt) A loop of wire forming an equilateral triangle carries a steady current I. a. Find the magnetic field at the center of loop of wire forming a triangle which carries a steady current I. Let R be the closest distance from the center to the sides the triangle. b. Compare your result to the magnetic field at the center of circle of radius R. In which case is the field greater? Qualitatively explain why.
Please solve and explain how its done.
The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge length L=7.05 cm. It carries current I=13.5 A. 1 P L L What is the magnitude Bo of the magnetic field produced by this current loop at point o in the center of the triangle?: G. Bo= What is the magnitude Bp of the magnetic field produced by this current loop at point P outside the triangle...
Electricity and Magnetism: How were these
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The figure below displays a thin conducting loop shaped as an equilateral triangle with the edge length L=6.55 cm. It carries current I=10.5 A. I A P L L What is the magnitude Bo of the magnetic field produced by this current loop at point o in the center of the triangle?: Bo= 2.89 2.89 G. What is the magnitude Bp of the magnetic field produced by this current loop at point...
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