For the wire arrangement on the right (the square), with currents, directions, and dimensions as shown, calculate the forces per unit length (N/m) on the upper-left wire due to a) upper-right wire. Force = ______ mN/m at a vector angle of _____ degrees. b) lower-right wire. Force = _______ mN/m at a vector angle of _____ degrees. c) lower-left wire. Force = _______ mN/m at a vector angle of _______ degrees. d) The net force on the upper-left wire is then ________ mN at a vector angle of _____ degrees.

For the wire arrangement on the right (the square), with currents, directions, and dimensions as shown, calculate the forces per unit length (N/m) on the upper-left wire due to a) upper-right wire. Force = ____ mN/m at a vector angle of _ degrees. b) lower-right wire. Force = ___ mN/m at a vector angle of _ degrees. c) lower-left wire. Force = _ mN/m at a vector angle of _ degrees. d) The net force on the upper-left wire is then __ mN at a vector angle of _ degrees.

Related questions

Q: True or False: In an electrical direct current, the (+) charges move in the direction of the…

A: Answer ---------- True In an electrical direct current, the (+) charges move in the direction of…

Q: I could really use some help on some questions! The problem is as follows: A thine wire of length…

Q: Obtain a value of pi from your graphs and compare with the 'theoretical' value.

Q: possible, please write on paper and upload photo of paper. Other forms of answers do not show for…

Q: A battery with Ɛ = 4.00 V and no internal resistance supplies current to the circuit shown in the…

Q: An clectric current of 0.716 Amps passes into two wires in which it is divided into currents in the…

A: Given data: Total current (I) = 0.716 A Current ratios I1:I2 = 2.83 : 1.09 Required: The currents…

Q: Using mesh analysis, find the current trough B2 resistor h the following crcut 6A BA 20V (+,

A: Let's assume the current flowing in the three loops are I1, I2 and I3 as shown in figure below.

Q: Give a detailed drawing and physics equations to explain how the Hall effect can be used to find…

Q: Given that there are two wires right next to one another with the left ones current going downwards…

A: Given, Magnetic field due to left wire, B = 5.5×10-7 Tcurrent of the second wire, I2 = 0 ATHe wires…

Q: 业 6) The tigure two long wires below shows in croes section. Wire I current l, = of the page Carries…

Q: the figure below, the blue wire has a current I = 19 A and the red loop is a square with sides th ce…

Q: What can you say about the picture on the left? Can you light a bulb or detect current without any…

A: By this picture we can see that there is a solenoid with large number of turn and this is connected…

Q: In the diagram below, the red wire has a current passing through it (the direction is indicated in…

Q: Part A 1A B 5 A C 3 A 2 A What is the magnitude of the current IB in segment B? Express your answer…

Q: Explain the concept of H, B and M (magnetization) in a conductor carrying a current I ! (with…

Q: [Numbers change] A series of wires are connected as shown below. The current C1 = 14 A, the current…

Q: In the diagram below, the red wire has a current passing through it (the direction is indicated in…

A: To determine the order of magnitude of magnetic field at different point as shown in above figure.

Q: 1) Adapting an old exam question: Consider a hollow cylindrical conductor of inner radius b and…

A: Given, current density is, J inner radius of hollow cylinder is, b outer radius of hollow cylinder…

Q: The diagram below shows two long parallel wires, A & B. The direction of the current for each wire…

Q: H Loop 1= Loop 'I 2: Pr 109 20 I, +40 I3 + 20 I₁ = 60 40 I + OI₂ +40 I₂ = 60 Node Equatione 10…

Q: What mass of gold is produced when 25.0 A of current are passed through a gold solution for 36.0 min…

A: Given that, A 25 (amp) of current passes through a solution of gold and for time t=36min=2160s And…

Q: In the circuit below, R1 = 105 Q, R2 = 0.02 Q, ɛ = 21, and L = 19 mH. Switch 1 has been closed for a…

A: Initially the switch was closed for a while. So we can assume that the inductor was fully charged.…

Q: I, The picture shows two parallel wires where I1 is 19.6 amps, and I2 is 35.5 amps. The location A…

A: I1 = 19.6 amps, I2 is 35.5 amps. The location A is in the plane of the two wires and is 30.0 mm from…

Q: Write the junction rule for each junction using the labeled currents and their given directions J1:…

A: Given, An electric circuit with many junctions and currents

Q: A rectangular loop of 270 turns is 33cm wide and 17cm high. What is the current in this loop if the…

A: Given: The given values are, The given number of turns are 270. The wide and height of the…

Q: In the parallel circuit as shown in figure 2, if the resistance of R3 was increased, what change…

A: Given the resistance of R3 is increased, Then we have find what change would we observe in the value…

Q: 2. You have three capacitors in parallel, one of capacitance 12 nF, one of 16 nF, and one of 22 nF.…

A: Dear student, Since all questions are different as per our company's guidelines we can author only…

Q: In the following drawing, eight wires cut the screen perpendicularly at the indicated points 1 to 8.…

Question

100%

I need help understanding this problem.

For the wire arrangement on the right (the square), with currents, directions, and dimensions as shown, calculate the forces per unit length (N/m) on the upper-left wire due to

a) upper-right wire. Force = ______ mN/m at a vector angle of _____ degrees.

b) lower-right wire. Force = _______ mN/m at a vector angle of _____ degrees.

c) lower-left wire. Force = _______ mN/m at a vector angle of _______ degrees.

d) The net force on the upper-left wire is then ________ mN at a vector angle of _____ degrees.

Hello Vectors (AGAIN)!!! There is a Support Video for this class of problems.

10.0 A | 20.0 cm-10.0 A
-20.0 cm-
-20.0 cm-
20.0 cm
X
5.00 A 20.0 cm 5.00 A
X

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Concept

VIEW

Step 2: Calculation

VIEW

Solution

VIEW

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here