Within the green dashed circle shown below, the magnetic field changes with time according toB = 2.00t – 4.00t² + 0.8. B is in Tesla and t is in seconds, and R=1.7 cm. When t=2.00 s,calculate the magnitude of the force exerted on an electron located at point P1. which is 7.6 cmfrom the center of the circular field region.Hint --> It's outside the region of the magnetic field, so the force is generated by the inducedelectric field. Use ƒ Ë - dš =- and think about what dšis in this case.dtEnter answer in units of X x 10 21 N(basically. give X, to 3 decimal points).X x x X xTo* X X XX* X X X Xx* X x XX

First we find the electric field at r1 =7.6cm so that we can find the electric force working on the…

Within the green dashed circle shown below, the magnetic field changes with time according to B = 2.00t - 4.00t² + 0.8. B is in Tesla and t is in seconds, and R=1.7 cm. When t=2.00 s, calculate the magnitude of the force exerted on an electron located at point P1. which is 7.6 c from the center of the circular field region. Hint --> It's outside the region of the magnetic field, so the force is generated by the induced electric field. Use ƒ Ë · dš = - and think about what dšis in this case. Enter answer in units of X x 10 21 N(basically. give X, to 3 decimal points). X x X X x * X X XX * X X X Xx * X x Xx

Within the green dashed circle shown below, the magnetic field changes with time according to B = 2.00t - 4.00t² + 0.8. B is in Tesla and t is in seconds, and R=1.7 cm. When t=2.00 s, calculate the magnitude of the force exerted on an electron located at point P1. which is 7.6 c from the center of the circular field region. Hint --> It's outside the region of the magnetic field, so the force is generated by the induced electric field. Use ƒ Ë · dš = - and think about what dšis in this case. Enter answer in units of X x 10 21 N(basically. give X, to 3 decimal points). X x X X x * X X XX * X X X Xx * X x Xx