Exercise 29.6 Part A A coil 3.85 cm radius, containing 430 turns, is placed in a uniform magnetic field that varies with time according to B=(1.20x102 T/s )t+( 3.00x105 T/s )e*. The coil is connected to a 600-2 resistor, and its plane is perpendicular to the magnetic field. You can ignore the resistance of the coil. Find the magnitude of the induced emf in the coil as a function of time. E = 7.65×10* V +( 7.65×10*$ V/s³ )e² E = 2.40-10°? V +( 6.01×10-5 V/s² )e? E = 2.40×10"2 V +( 2.40×10"4 V/s® )e° O E =7.6 10°) V +(2.40×10"4 V/s³ )e° Submit Request Answer
Exercise 29.6 Part A A coil 3.85 cm radius, containing 430 turns, is placed in a uniform magnetic field that varies with time according to B=(1.20x102 T/s )t+( 3.00x105 T/s )e*. The coil is connected to a 600-2 resistor, and its plane is perpendicular to the magnetic field. You can ignore the resistance of the coil. Find the magnitude of the induced emf in the coil as a function of time. E = 7.65×10* V +( 7.65×10*$ V/s³ )e² E = 2.40-10°? V +( 6.01×10-5 V/s² )e? E = 2.40×10"2 V +( 2.40×10"4 V/s® )e° O E =7.6 10°) V +(2.40×10"4 V/s³ )e° Submit Request Answer
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Transcribed Image Text:KElectromagnetic Induction
Exercise 29.6
Part A
A coil 3.85 cm radius, containing 430 turns, is placed in a
uniform magnetic field that varies with time according to
B=(1.20x10-2 T/s )t+( 3.00x10-5 T/s )e". The coil is
connected to a 600-2 resistor, and its plane is perpendicular
to the magnetic field. You can ignore the resistance of the
coil.
Find the magnitude of the induced emf in the coil as a function of time.
O E =7.65x10") V +(7.65×10-5 V/s* )e*
O 8 =2.40x10°2 V +( 6.01×10"5 V/s² )t²
O 8 =2.40x10-2 V +(2.40×10"4 V/s³ )t
O E =7.65×10 V +(2.40×10-4 V/s³ )e*
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