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
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![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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9b0c6ddc-d0b5-4e75-868d-304d09e7a1e8%2F8e5864de-d8d1-4b15-82e1-d162a657e3f3%2Fhuuownq_processed.png&w=3840&q=75)
Transcribed Image Text: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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