I need help with part C. (After part b, Draw the magnetic field lines for these two currents)
3. Two currents are shown in the figure below. Current a is into the page and current b is out of the page. Both currents have the same magnitude.
A and B:
a. Draw a vector representing the relative magnitude and direction of the field at each of the black dots shown. You may do this on your own paper, but there should be one vector at the location of each black dot (there are 12). We haven’t learned the formulas for calculating the exact magnitude yet, but you can represent how the strength of the field changes with distance from the current with the lengths of your vectors. The two currents are very far from each other
b. Draw the magnetic field lines for these two currents.
C: Now the currents have been brought close together. Draw the
magnetic field vectors at each of the points shown. Magnetic fields
add linearly just as electric fields did.
Homework Answers
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I need help with part C. (After part b, Draw the magnetic field
lines for these...
Two currents are shown in the figure below. Current a is into the page and current...
Two currents are shown in the figure below. Current a is into
the page and current b is out of the page. Both currents have the
same magnitude.
a. Draw a vector representing the relative magnitude and
direction of the field at each of the black dots shown. You can
represent how the strength of the field changes with distance from
the current with the lengths of your vectors. The two currents are
very far from each other
b. Draw...
1) The two wires shown each carry 96.0A. a) Find the B-field vector at Point P....
1) The two wires shown each carry 96.0A. a) Find the B-field vector at Point P. (eg. B-(2.33i-400k )T (one out of the page, one runs parallel to top of the page) 3.00 cm b) Draw three vectors at Point P: Two vectors for B due to each of the wires and one vector for the total B. (for intolout of the page use an x or a dot.): c) What is the magnitude of the magnetic field? 1 of...
Magnetic Field Each figure below shows two long straight wires carrying equal currents into or out...
Magnetic Field
Each figure below shows two long straight wires carrying equal currents into or out of the page. At each of the dots, use a black pen or pencil to show and label the magnetic fields B_1 and B_2 due to each wire. Then use a red pen or pencil to show the net magnetic field.
Will give an up vote only if all parts are answered and detailed explanations are given....
Will give an up vote only if all parts are answered and detailed
explanations are given. Thank you.
17. Three infinite wires are carrying current either out of the page (black dots) or into the page (white dot). A) (6 pts) Draw the magnetic field created by each wire in the area immediately surrounding each wire. B) (13 pts) Calculate the magnitude of the overall magnetic field at the origin depicted below. The currents for each wire are labeled in...
1 The electric field of individual point charges Question 1: (10 points) The figures above show...
1 The electric field of individual point charges Question 1: (10 points) The figures above show a positive charge (left) and a negative charge (right). The circles indicate which of the dots (points in space) are at equal distances from the charge. a) At each of the points indicated by a dot, draw the electric field vector representing the field gener ated by the charge. Make sure to get both the direction and the relative magnitudes of the vectors right....
Draw the vectors. Part A Figure shows two dots of a motion diagram and vector vh...
Draw the vectors.
Part A Figure shows two dots of a motion diagram and vector vh Draw the vector t if the acceleration vector a at dot 3 points to the right Draw the vector starting at the Ыack dot 3. The location and orientation of the vector will be graded. The oxactlengn of your recor-. not beg ideaal heke b en ereder n-lth.gr . No elements selected Select the elements from the list and add them to the cavas...
part (a): express the magnetic field vector B created at the center O in terms of...
part (a): express the magnetic field vector B created at the
center O in terms of the current I, the radius vector R, and the
length element vector ds
part (b): What the direction of the magnetic field at point O?
right, left, out of screen, downward, upward, or into the
screen?
part (c): Express the magnitude of the magnetic field at point
O in terms of I and R.
part (d): Calculate the numerical value of B, in tesla...
Hello everyone, I understand how the magnetic field vectors are oriented, but can someone help me...
Hello everyone, I understand how the magnetic field vectors
are oriented, but can someone help me on number 3. I'm not able to
get how to compared the magnitudes. Thank you!
1. At each of the four labeled points (A-D), sketch a vector representing the magnetic field around the bar magnet 2. A second bar magnet identical to the first one is placed to the left of point A. (See figure below At each of the four labeled points (A-D"),...
I only need help with questions 4,5,6,7, and 8. thanks Magnetic field and Magnetic Force due...
I
only need help with questions 4,5,6,7, and 8. thanks
Magnetic field and Magnetic Force due to a (long, straight) current PHYS 181 - in class problem set An infinitely long conductor carrying current is bent at a right angle as shown in Figure 1. Point P is located a distance b from the corner of the wire. Only one section of this current contributes to the magnetic field at pt. P. Why? The general formula (derived from the Biot-Savart...
Problem 1a: Velocity Selector: Show that with the right ratio of electric to magnetic field strength...
Problem 1a: Velocity Selector: Show that with the right ratio of electric to magnetic field strength a particle of velocity v will proceed through both fields in a straight line at constant speed (hint: you will need an equation containing v. Also: what does the straight line at constant speed give you?). Assume that the angle of the velocity vector relative to the magnetic field vector is 90 degrees. (15 points) b: Show mathematically that the charge magnitude and sign...
Two currents are shown in the figure below. Current a is into
the page and current b is out of the page. Both currents have the
same magnitude.
a. Draw a vector representing the relative magnitude and
direction of the field at each of the black dots shown. You can
represent how the strength of the field changes with distance from
the current with the lengths of your vectors. The two currents are
very far from each other
b. Draw...
1) The two wires shown each carry 96.0A. a) Find the B-field vector at Point P. (eg. B-(2.33i-400k )T (one out of the page, one runs parallel to top of the page) 3.00 cm b) Draw three vectors at Point P: Two vectors for B due to each of the wires and one vector for the total B. (for intolout of the page use an x or a dot.): c) What is the magnitude of the magnetic field? 1 of...
Magnetic Field
Each figure below shows two long straight wires carrying equal currents into or out of the page. At each of the dots, use a black pen or pencil to show and label the magnetic fields B_1 and B_2 due to each wire. Then use a red pen or pencil to show the net magnetic field.
Will give an up vote only if all parts are answered and detailed
explanations are given. Thank you.
17. Three infinite wires are carrying current either out of the page (black dots) or into the page (white dot). A) (6 pts) Draw the magnetic field created by each wire in the area immediately surrounding each wire. B) (13 pts) Calculate the magnitude of the overall magnetic field at the origin depicted below. The currents for each wire are labeled in...
1 The electric field of individual point charges Question 1: (10 points) The figures above show a positive charge (left) and a negative charge (right). The circles indicate which of the dots (points in space) are at equal distances from the charge. a) At each of the points indicated by a dot, draw the electric field vector representing the field gener ated by the charge. Make sure to get both the direction and the relative magnitudes of the vectors right....
Draw the vectors.
Part A Figure shows two dots of a motion diagram and vector vh Draw the vector t if the acceleration vector a at dot 3 points to the right Draw the vector starting at the Ыack dot 3. The location and orientation of the vector will be graded. The oxactlengn of your recor-. not beg ideaal heke b en ereder n-lth.gr . No elements selected Select the elements from the list and add them to the cavas...
part (a): express the magnetic field vector B created at the
center O in terms of the current I, the radius vector R, and the
length element vector ds
part (b): What the direction of the magnetic field at point O?
right, left, out of screen, downward, upward, or into the
screen?
part (c): Express the magnitude of the magnetic field at point
O in terms of I and R.
part (d): Calculate the numerical value of B, in tesla...
Hello everyone, I understand how the magnetic field vectors
are oriented, but can someone help me on number 3. I'm not able to
get how to compared the magnitudes. Thank you!
1. At each of the four labeled points (A-D), sketch a vector representing the magnetic field around the bar magnet 2. A second bar magnet identical to the first one is placed to the left of point A. (See figure below At each of the four labeled points (A-D"),...
I
only need help with questions 4,5,6,7, and 8. thanks
Magnetic field and Magnetic Force due to a (long, straight) current PHYS 181 - in class problem set An infinitely long conductor carrying current is bent at a right angle as shown in Figure 1. Point P is located a distance b from the corner of the wire. Only one section of this current contributes to the magnetic field at pt. P. Why? The general formula (derived from the Biot-Savart...
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