A current-carrying wire is oriented along the x axis. It passes through a region 0.22 m song in which there is a magnetic field of 2.44 T in the +z direction. The wire experiences a force of 13 N in the +y direction as shown in the figure. 1. 2. 3. 4. O O O O (2.44) (13)x (0.22) (13) (2.44)x (0.22) (0.22) (13) x (2.44) O The magnetic field vector acting on the wire can be expressed as: >ITI The magnitude of the electric current can be calculated using: ODownward OThe right OThe left OUpward OTO Olo ΟΙΟ ΟΤΟ B The magnitude of the current is equal to: /= The direction of the current flow in the wire will be pointing to: Downward OThe right OThe left 0 5. If the current direction is opposite to the calculated one, the magnetic force. direction acting on the wire will be pointing to: OUpward

A current-carrying wire is oriented along the x axis. It passes through a region 0.22 m song in which there is a magnetic field of 2.44 T in the +z direction. The wire experiences a force of 13 N in the +y direction as shown in the figure. 1. 2. 3. 4. O O O O (2.44) (13)x (0.22) (13) (2.44)x (0.22) (0.22) (13) x (2.44) O The magnetic field vector acting on the wire can be expressed as: >ITI The magnitude of the electric current can be calculated using: ODownward OThe right OThe left OUpward OTO Olo ΟΙΟ ΟΤΟ B The magnitude of the current is equal to: /= The direction of the current flow in the wire will be pointing to: Downward OThe right OThe left 0 5. If the current direction is opposite to the calculated one, the magnetic force. direction acting on the wire will be pointing to: OUpward

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: A proton travels with a speed of 5.00 x 10 6 m/s at an angle of 38.0° with the direction of a…

Q: current of 0.581A is flowing down a long straight wire. Current flows from left to right across the…

Q: An electron moves at 5.60 x 106 m/s along the z-axis. It enters a region in which there is a…

A: Given that:- Velocity of electron=5.6×10^6 m/s

Q: A negatively charged ion with an excess electron moving with a velocity vx = 1.095 x103 m/s is…

A: Given that: q=-e=1.6×10-19 Cvx=1.095×103 m/sr=d2=4 cm=0.04 mBz=4 mT=4×10-3T

Q: Suppose a 5.8mC charge moves with velocity 571.95 m/s at an angle of 26.18° relative to the…

Q: 2 = 8.00 A. (See figure below. Assume the conductors lie in the plane of the page.) y 12 1₁ X a)…

A: Current = I1 =6 Amp I2= 8 Amp Distance = r = 12 cm

Q: A doubly ionized molecule (i.e., a molecule lacking two electrons) moving in a magnetic field…

Q: An electron ( m. = 9.11×101 kg q=1.6×10-19 C) moves in a circular path perpendicular to a uniform…

A: The radius can be determined as, r=meveB

Q: A wire carries a current of 11.0 A in a direction that makes an angle of 36.0° with the direction of…

Q: A -1,688.2 uC charge is moving in a uniform magnetic field = (28.1,31.4,46.6) T with a velocity =…

A: Given Charge ,q = -1688.2 uC Magnetic field, B = ( 28.1,31.4, 46.6)T Velocity ,v = (-149,0, 100)…

Q: A proton travels with a speed of 5.0× 106 m/s in a direction that makes an angle of 60.0° with the…

Q: A 11.38m wire carries a current of 96.39mA perpendicular to a uniform magnetic field of magnitude…

Q: 13.1 The initial total mass of the Saturn V rocket, which launched Apollo 11 to the Moon (see a…

A: Given:mass, m = 2.8×106 kgMass of first stage fuel, mf1 = 2.1×106 kgThrust force, F = 37×106 NSpeed,…

Q: A copper wire has a mass of 20 g and a length of 10 cm. The wire is in a magnetic field of 0.5 T as…

Q: A 11.92m wire carries a current of 52.59mA perpendicular to a uniform magnetic field of magnitude…

Q: A wire carrying 1.5 A passes through a 48-mT magnetic field. The wire is perpendicular to the field…

Q: An electron moving at 3.50 x 103 m/s in a 1.10 T magnetic field experiences a magnetic force of 1.40…

Q: A charged particle is moving in a magnetic field, B, with speed v. Assume the value of the charge is…

A: F=ma For an object moving in circular path, acceleration is centripetal acceleration. a=v2r Then,…

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

A current-carrying wire is oriented along the x axis. It passes through a region
0.22 m long in which there is a magnetic field of 2.44 T in the +z direction. The wire
experiences a force of 13 N in the +y direction as shown in the figure.
1.
2.
3.
4.
Ο ΟΙΟ
OO
O
O
5.
O
(2.44)
(13) x (0.22)
(13)
(2.44)x (0.22)
(0.22)
(13) x (2.44)
The magnetic field vector acting on the wire can be expressed as:
> [T]
The magnitude of the electric current can be calculated using:
Downward
OThe right
OThe left
OUpward
OTO
0 0
The magnitude of the current is equal to: /=
The direction of the current flow in the wire will be pointing to:
O
OTO
ΟΙΟ
O
Downward
OThe right
The left
If the current direction is opposite to the calculated one, the magnetic force.
direction acting on the wire will be pointing to:
OUpward

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: Given data

VIEW

Step 2: Determining the magnetic field vector.

VIEW

Step 3: Determining the expression for magnitude of electric current.

VIEW

Step 4: Calculation for the value of magnitude of electric current.

VIEW

Step 5: Calculation for direction of electric current.

VIEW

Step 6: Calculation for direction of force when current is along +x-axis.

VIEW

Solution

VIEW

Step by step

Solved in 7 steps with 29 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

A current-carrying wire is oriented along the x axis. It passes through a region 0.22 m long in which there is a magnetic field of 2.44 T in the +z direction. The wire experiences a force of 13 N in the +y direction as shown in the figure. 1. 2. 3. 4. O O Ο ΟΙΟ Ο ΟΙΟ O (2.44) (13) x (0.22) (13) (2.44)x (0.22) (0.22) (13) x (2.44) The magnetic field vector acting on the wire can be expressed as: >[T] The magnitude of the electric current can be calculated using: Downward O. OThe right OThe left OUpward OTO O The magnitude of the current is equal to: /= The direction of the current flow in the wire will be pointing to: Downward OThe right The left Ο ΟΙΟ O 5. If the current direction is opposite to the calculated one, the magnetic force. direction acting on the wire will be pointing to: OUpward
The system described below is in the xy plane: m₁ = 6.5 kg at the coordinates x = 1.0 m and y = 6.0 m; m₂ = 5.5 kg at the coordinates x 2.0 m and y = 8.0 m and mg₃ = 8.0 kg at the coordinates x = -3.0m and y = -5.0 m. Make the graphical representation of each of the masses of the system. Determine the position of its center of mass and place it correctly in your graphical representation.
An electron ( me = 9.11x1031 kg. q=1.6x10-91 C) moves in a circular path perpendicular to a uniform magnetic field with a magnitude of 7.3 mT. If the speed of the electron is 1.50 x107 m/s, determine the radius of the circular path ( in units of cm). Select one: A. 0.62 B. 1.17 С. 1.72 D. 1.44 E. 0.04
A doubly ionized molecule (i.e., a molecule lacking two electrons) moving in a magnetic field experiences a magnetic force of 6.41 x 10-16 N as it moves at 223 m/s at 67.9° to the direction of the field. Find the magnitude of the magnetic field. T