Certainly! Here is the transcription of the text as it might appear on an educational website:---**12) For the directions of I₁ and I₂ as shown:**a) What are the **directions** of B₁, B₂ at any point on the −x axis?b) With these directions, is it possible to get Bnet = 0?c) What are the **directions** of B₁, B₂ at a point on the x axis **between** I₁ and I₂?d) With these directions, is it possible to get Bnet = 0?e) What are the **directions** of B₁, B₂ on the x axis with x > d?f) With these directions, is it possible to get Bnet = 0?g) Let x = distance from I₁, d − x = distance from I₂, solve for x that will give Bnet = 0.---*Note: The text discusses the directions of magnetic fields (B₁, B₂) resulting from currents (I₁, I₂) and under which conditions the net magnetic field (Bnet) can be zero.* **Problem 12: Magnetic Field Zero Point**In Fig. 29-43, two long straight wires are separated by a distance \( d = 16.0 \, \text{cm} \) and carry currents \( i_1 = 3.61 \, \text{mA} \) and \( i_2 = 3.00i_1 \) out of the page.(a) Where on the x-axis is the net magnetic field equal to zero?(b) If the two currents are doubled, is the zero-field point shifted toward wire 1, shifted toward wire 2, or unchanged?**Diagram Explanation:**Figure 29-43 shows two wires placed on a coordinate system with wire 1 at the origin and wire 2 positioned further along the x-axis at a distance \( d \). Both wires have currents \( i_1 \) and \( i_2 \) flowing out of the page. The diagram aids in visualizing the location along the x-axis where the net magnetic field might be zero, depending on the relative strengths of the currents.

Answered: Image /qna-images/answer/697eb06f-9d5d-44e3-a18e-594ae38bfde6.jpg

10:00 12 In Fig. 29-43, two long straight wires at separation d = 16.0 cm carry currents i = 3.61 mA and i = 3.00i, out of the page. (a) Where on the x axis is the net magnetic field equal to zero? (b) If the two currents are doubled, is the zero-field point shifted toward wire d toward wire ? or unchanged?

10:00 12 In Fig. 29-43, two long straight wires at separation d = 16.0 cm carry currents i = 3.61 mA and i = 3.00i, out of the page. (a) Where on the x axis is the net magnetic field equal to zero? (b) If the two currents are doubled, is the zero-field point shifted toward wire d toward wire ? or unchanged?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Related questions

Q: An electron moves with a speed of 1.99 × 106 m/s along the +x-axis. It enters a region where there…

A: The magnetic field is, B=1.87 T The electron's speed is, v=1.99×106 m/s The angle of the magnetic…

Q: A length L of straight, horizontal wire is oriented perpendicular to a uniform horizontal magnetic…

A: the main principle in this problem is equating the magnetic force to the gravitational force so…

Q: Point P is directly between you and the wire as you look straight ahead at it. In which direction is…

A: Required : The direction of the magnetic field.

Q: (b) The particle is moving along the line (y = 0.100 m, z = 0). Let's call the distance between the…

A: Given : q= 2×10^-⁶C v = 15010^⁶ m/sec . We know that ; F = q×v× B .

Q: A uniform magnetic field passes through a horizontal circular wire loop at an angle 19.5° from the…

A: Solution

Q: Figure 28-41 shows a rectangular, 25-turn coil of wire, 10.0 cm by 5.0 cm. It carries a current of…

A: Step 1: Step 2:Step 3: Step 4:

Q: rails (even as the wire moves). At t = 61.1 ms, what are the wire's (a) speed and (b) direction of…

Q: The magnetic field in a region of space is specified by its x, y, and z components which are…

A: The magnetic field is a field that arises from moving charges through space. Current is the rate of…

Q: A proton moves through a region containing a uniform electric field given by E = 44.0 j V/m and a…

A: Given information: Here, m and q are the proton’s mass and proton’s charge respectively.

Q: Two parallel conductors are carrying currents in the opposite direction. The currents are non-zero…

Q: The figure below shows the direction and relative magnitude of the current flowing through three…

A: From the question, it is given that- I = 20 A Position of wire 1: y1 = +2.0 m Current in wire 1: I1…

Q: An electron initially at rest is accelerated through a po where a uniform 4.0-mT magnetic field is…

A: Given V=3.75 kV=3.75×103 VB=4.0 mT=4×10-3 Tqe=1.6×10-19 Cme=9.11×10-31 kg

Q: A point charge of value q = 3.10μC has a speed of = 2.14 × 107-1.81 × 10k when it is at the point…

A: Disclaimer: “Since you have asked posted a question with multiple sub-parts, we will solve the first…

Q: A square loop 20 cm on a side lies in the x-y plane and has a resistance of 50 2. The loop is in an…

Q: (a) An electron moves through a uniform electric field E = (2.801 + 5.80J) V/m and a uniform…

Q: charged particle with speed v = 3.5 x 10° m/s enters a uniform %3D magnetic field of B = 1.5 T. The…

A: The time period is given by T = 2 π mB q The pitch of the helix is pitch = v cosθ×T where, m is…

Q: Wire 2 *34 O Figure 29-62 shows, in cross section, two long straight wires held against a plastic…

A: The formula for the magnetic field is: Use the expression for the magnetic field to determine the…

Q: A rectangular coil consists of 17 turns and has a dimension of 5L x 4L. The coil carries current I…

A: Length of the rectangular coil, l=5L Breadth of the rectangular coil, b=4L The coil is subjected to…

Concept explainers

Magnetic Field Of Coaxial Cable

The word coaxial means same axis. So for a long straight cable to be coaxial, it must have concentric cylindrical shaped conductor around it. Coaxial cable (popularly called ‘coax’) has various applications ranging from current conductors to radiofrequency signal transmitters. This cable has lower emission losses and provides protection from electromagnetic interference which allows signals with less power to transmit over longer distances.For example, currents produced in the pickup of a stereo turntable generally travel to the amplifier through a coaxial cable.The self-inductance of a coaxial cable is another important characteristic, because it influences the propagation of electrical signals in the cable.

Question

Certainly! Here is the transcription of the text as it might appear on an educational website:

---

**12) For the directions of I₁ and I₂ as shown:**

a) What are the **directions** of B₁, B₂ at any point on the −x axis?

b) With these directions, is it possible to get B<sub>net</sub> = 0?

c) What are the **directions** of B₁, B₂ at a point on the x axis **between** I₁ and I₂?

d) With these directions, is it possible to get B<sub>net</sub> = 0?

e) What are the **directions** of B₁, B₂ on the x axis with x > d?

f) With these directions, is it possible to get B<sub>net</sub> = 0?

g) Let x = distance from I₁, d − x = distance from I₂, solve for x that will give B<sub>net</sub> = 0.

---

*Note: The text discusses the directions of magnetic fields (B₁, B₂) resulting from currents (I₁, I₂) and under which conditions the net magnetic field (B<sub>net</sub>) can be zero.*

**Problem 12: Magnetic Field Zero Point**

In Fig. 29-43, two long straight wires are separated by a distance \( d = 16.0 \, \text{cm} \) and carry currents \( i_1 = 3.61 \, \text{mA} \) and \( i_2 = 3.00i_1 \) out of the page.

(a) Where on the x-axis is the net magnetic field equal to zero?

(b) If the two currents are doubled, is the zero-field point shifted toward wire 1, shifted toward wire 2, or unchanged?

**Diagram Explanation:**

Figure 29-43 shows two wires placed on a coordinate system with wire 1 at the origin and wire 2 positioned further along the x-axis at a distance \( d \). Both wires have currents \( i_1 \) and \( i_2 \) flowing out of the page. The diagram aids in visualizing the location along the x-axis where the net magnetic field might be zero, depending on the relative strengths of the currents.

Expert Solution

This question has been solved!

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

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1: Determine the given data:

VIEW

Step 2: Answer the questions at 12)

VIEW

Step 3: a) Determine the value of x where magnetic field is zero:

VIEW

Step 4: b) Calculate if the zero field point changes:

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 5 steps with 5 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

Two parallel infinite current carrying wires are separated by a distance d. Point A is at a distance R from wire 1. If d = R and I₁ = I₂, the direction of the magnetic field at point A is: Wire 1 X у -Z +Z X AR |₁ The given is not sufficient The magnetic field is zero d Wire 2 2
As shown in the figure below, two long parallel wires (1 and 2) carry currents of I, = 2.96 A andI, -4.75 A in the direction indicated. (a) Determine the magnitude and direction of the magnetic field at a point midway between the wires (d- 10.0 cm). magnitude HT direction ° counterclockwise from the +x axis (b) Determine the magnitude and direction of the magnetic field at point located d= 10.0 cm above wire 1. magnitude HT direction counterclockwise from the +x axis
A long straight wire sits on the z-axis and carries a current of 8.22 amps in the positive z direction. Find the magnitude of the magnetic field produced by this current at position (x,y,z) = (0.646 m, -4.24 m, 2.6 m). Answer in units of T.
(a) A conducting loop in the shape of a square of edge length ℓ = 0.460 m carries a current I = 8.00 A as in the figure above. Calculate the magnitude and direction of the magnetic field at the center of the square. magnitude µT direction (b) If this conductor is reshaped to form a circular loop and carries the same current, what is the value of the magnetic field at the center? magnitude µT direction
11 In Fig. 29-42, two long straight wires are perpendicular to the page and = 0.75 cm. separated by distance d₁ Wire 1 carries 6.5 A into the page. What are the (a) magnitude and (b) direction (into or out of the page) of the current in wire 2 if the net magnetic field due to the two currents is zero at point P lo- cated at distance d₂ = 1.50 cm from Figure 29-42 Problem 11. wire 2? ata of bot Wire 10 Wire 20- P has mA ne me ma 90 25 ry th
A 6.75 g wire of length L 15.0 cm is suspended by a pair of flexible leads in a uniform magnetic field of magnitude 0.440 T (Fig. 28-30). What are the (a) magnitude and (b) direction (left or right) of the current required to remove the tension in the supporting leads? Please explain the solution step by step
A long straight wire sits on the z-axis and carries a current of 1.46 amps in the positive z direction. Find the magnitude of the magnetic field produced by this current at position (x,y,z) = (-1.44 m, -3.65 m, 6.04 m). Answer in units of T.
Suppose a straight 1.75 mmmm -diameter copper wire could just "float" horizontally in the air because of the force due to the Earth's magnetic field B B→, which is horizontal, perpendicular to the wire, and of magnitude 4.5×10−5 T. What current would the wire carry?
A rectangular loop in the xy-plane carrying a current I lies in a uniform Magnetic field B = axBx + ayBy + azBz. Determine the Force and the torque on the loop