Please asap Within the green dashed circle shown in the figure below, the magnetic field changes with time according to the expressionB = 3.00t³3.00t² + 0.800, where B is in teslas, t is in seconds, and R = 2.15 cm.1*****× × × × x P₂89/x xx xx xxxxxxxxx Rxxxxxxxxxxx71(a) When t = 2.00 s, calculate the magnitude of the force exerted on an electron located at point P₁, which is at adistance r₁ = 4.30 cm from the center of the circular field region.N(b) When t = 2.00 s, calculate the direction of the force exerted on an electron located at point P₁, which is at adistance ₁= 4.30 cm from the center of the circular field region.O tangent to the electric field line passing through point P₁ and clockwiseO tangent to the electric field line passing through point P₁ and counterclockwiseO The magnitude is zero.(c) At what instant is this force equal to zero? (Consider the time after t = 0 s.)S

The time-varying magnetic field, B→=3t3-3t2+0.800 The radius of the circle, R=2.15 cm

Within the green dashed circle shown in the figure below, the magnetic field changes with time according to the expression B = 3.00t33.00t² + 0.800, where B is in teslas, t is in seconds, and R = 2.15 cm. ***** 2 x 197 x xx xx xx xxxxxx ***** R * xxxxxx xxxxx xxxxx 71 P₁ Bin (a) When t = 2.00 s, calculate the magnitude of the force exerted on an electron located at point P₁, distance r₁ = 4.30 cm from the center of the circular field region. N 1' (b) When t = 2.00 s, calculate the direction of the force exerted on an electron located at point P. which is at a distance r₁ = 4.30 cm from the center of the circular field region. O tangent to the electric field line passing through point P₁ and clockwise tangent to the electric field line passing through point P₁ and counterclockwise O The magnitude is zero. which is at a (c) At what instant is this force equal to zero? (Consider the time after t = 0 s.) S

Within the green dashed circle shown in the figure below, the magnetic field changes with time according to the expression B = 3.00t33.00t² + 0.800, where B is in teslas, t is in seconds, and R = 2.15 cm. * 2 x 197 x xx xx xx xxxxxx * R * xxxxxx xxxxx xxxxx 71 P₁ Bin (a) When t = 2.00 s, calculate the magnitude of the force exerted on an electron located at point P₁, distance r₁ = 4.30 cm from the center of the circular field region. N 1' (b) When t = 2.00 s, calculate the direction of the force exerted on an electron located at point P. which is at a distance r₁ = 4.30 cm from the center of the circular field region. O tangent to the electric field line passing through point P₁ and clockwise tangent to the electric field line passing through point P₁ and counterclockwise O The magnitude is zero. which is at a (c) At what instant is this force equal to zero? (Consider the time after t = 0 s.) S

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)...

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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

Please asap

Within the green dashed circle shown in the figure below, the magnetic field changes with time according to the expression
B = 3.00t³3.00t² + 0.800, where B is in teslas, t is in seconds, and R = 2.15 cm.
1
*****
× × × × x P₂
89/
x xx xx x
xxx
xxxxx R
xxxxxx
xxxxx
71
(a) When t = 2.00 s, calculate the magnitude of the force exerted on an electron located at point P₁, which is at a
distance r₁ = 4.30 cm from the center of the circular field region.
N
(b) When t = 2.00 s, calculate the direction of the force exerted on an electron located at point P₁, which is at a
distance ₁
= 4.30 cm from the center of the circular field region.
O tangent to the electric field line passing through point P₁ and clockwise
O tangent to the electric field line passing through point P₁ and counterclockwise
O The magnitude is zero.
(c) At what instant is this force equal to zero? (Consider the time after t = 0 s.)
S

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