Answered: A straight wire carries an current i… | bartleby

Related questions

Question

A straight wire carries an current i which flows in the positive x direction. The wire is
in an external magnetic field, which is into the screen. What direction is the force
exerted on the wire due to the external magnetic field?
В
O Along positive y (up)
Along negative y (down)
Out of the screen
Into the screen
Along positive x
X X A X X
X X
хх
X X
хх
хх
хх
хх
х
хх
хх

Expert Solution

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

A positively charged particle slides off a frictionless and smooth surface with initial X X X X X X X X speed v, =v, . It then enters into a region with X X X X X x x x X uniform magnetic field pointing into the page. X X X X x x x x X x x x x x X x x x The particle eventually hits the ground with final speed v, air time and range S · The particle slides off the edge again with identical initial speed, but this time without the magnetic field. The particle then hits the ground with final speed v,, air time t, , and range s,. Determine the relationships between v, and v,, t, and t, , as well as s, and s, (3 marks). Please note that no calculation is needed. You were to provide the relationship in the sense that whether one variable is greater than, smaller than, or equals to the other one (>, <, or =). Provide a rough explanation (3 marks).
A positively charged particle travels in the positive x direction through a region of magnetic field in the negative y direction. In what direction is the resulting force? O negative x direction O negative z direction O positive y direction
A conductive wire is arranged on the surface of the cube whose sides are 40 cm as shown. The wire is in the same magnetic field B = 0.02 T j. If the conductor is energized by an electric current I = 4 A in the direction shown in the picture, determine the vector of the magnetic force experienced by each piece of wire.
A conductor is moving to left direction in a region where uniform magnetic field is directed ino the page. Which point of the conductor (a or b) is at higher potential?
Each of the figures below shows a charged particle (with the charge sign indicated on each particle) moving from a region of zero magnetic field to a region of uniform magnetic field B. For each case, find the initial direction in which the charged particle is deflected (if any) as it enters the magnetic field. (a) Bin х х х х х х х * x x x O up O down O to the right O to the left O into the page O out of the page O no deflection (b) Bup O up O down O to the right O to the left O into the page O out of the page O no deflection (c) Bright up O down O to the right O to the left O into the page O out of the page O no deflection (d) Bat 45 450 O up O down O to the right O to the left O into the page O out of the page O o o
You make a solenoid with 500 turns of wire. The solenoid has a radius of 1.5 cm. You then curve this solenoid into a circle with a radius of 8.5 cm, and run a current of 3.0 Amps through the resulting toroid. What is the magnetic field inside the tube of the toroid?
At the equator, near the surface of Earth, the magnetic field is approximately 41.0 ?T northward and the electric field is about 100 N/C downward in fair weather. Find the gravitational, electric, and magnetic forces on an electron with instantaneous velocity of 6.00 106 m/s directed to the east in this environment. Gravitational ???N Electric???N Magnetic???N
Different units can be used to measure the same physical quantity, differing only by some multiplicative factor. The cgs unit for magnetic field, the gauss, is equal to tesla. O 104 104 O These units do not measure the same physical quantity. O 0.5
Which describes the net force on a magnetic dipole in a uniform magnetic field? The net force vector is in the direction of the magnetic field. O The net force vector is in the direction opposite that of the magnetic field. The net force vector is perpendicular to the direction of the magnetic field. O The net force vector is zero.
Asap plzzz