the answers are right but please show all steps and work The area of an elastic

Question

the answers are right but please show all steps and work

The area of an elastic circular loop decreases at a constant rate, dA/dt = -3.50 times 10^-2 m^2/s. The loop is in a magnetic field B = 0.28 T whose direction is perpendicular to the plane of the loop. At t = 0, the loop has area A = 0.285m^2. Determine the induced emf at t = 0, and at t = 2.00 s. Answer: 9.8 mV Suppose the radius of the elastic loop in part (a) increases at a constant rate, dr/dt = 4.30 cm/s. Determine the emf induced in the loop at t = 0 and at t = 1.00 s. Answer: 23 mV 26 mV

Explanation / Answer

A) induced emf = d(flux) /dt

= B dA/dt

= 0.28*3.5e-2

= 0.0098 V

= 9.8mV

Induced emf will be same at both times.

B) induced emf = d(flux) /dt

= B dA/dt

= B* pi*2r* dr/dt

Initial r = sqrt(A/pi) = sqrt (0.285/pi) = 0.301 m

Induced emf =0.28*pi*2*0.301*0.043 = 0.023 V = 23mV

After 1s, induced emf = 0.28*pi*2*(0.301+0.043)*0.043

= 0.026 V = 26mV

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