A generator has 100 turns of wire with an area of
0.090m2 and total resistance of
12 ohms. It rotates in a field B=
0.50T with 60 revolutions/seconds.
Calculate the maximum emf.
Im sorry i submitted the wrong picture. I will submitt the actual cuestion in english in a sec.
A generator has 100 turns of wire with an area of 0.090m2 and total resistance of...
The coil in an AC generator consists of 6 turns of wire, each of area A= 0.0800 m², and the total resistance of the wire is 10.0 V. The coil rotates in a 0.400-T magnetic field at a constant frequency of 50.0 Hz. Find the maximum induced emf in the coil. What is the maximum induced current in the coil when the output terminals are connected to a low- resistance conductor?
The armature of a generator consists of a flat, square coil with
150 turns and sides with a length of 20.0 cm. The coil rotates in a
magnetic field of 4.00 T at 300 revolutions per minute. The
resistance of the coil is 15.0 ohms. What is the peak current
produced in the coil (in A)?
(A) 37.5 (B) 84.3 (C) 68.4 (D) 24.9 (E) 12.0 (F)
50.3
The armature of a generator consists of a flat, square coil with...
6. The armature of a generator consists of a flat, square coil with 150 turns and sides with a length of 20.0 cm. The coil rotates in a magnetic field of 4.00 T at 300 revolutions per minute. The resistance of the coil is 15.0 ohms. What is the peak current produced in the coil (in A)?
6. The armature of a generator consists of a flat, square coil with 150 turns and sides with a length of 20.0 cm. The coil rotates in a magnetic field of 4.00 T at 300 revolutions per minute. The resistance of the coil is 15.0 ohms. What is the peak current produced in the coil (in A)? (A) 37.5 (B) 84.3 (C) 68.4 (D) 24.9 (E) 12.0 (F) 50.3
6. The armature of a generator consists of a flat, square coil with 150 turns and sides with a length of 20.0 cm. The coil rotates in a magnetic field of 4.00 T at 300 revolutions per minute. The resistance of the coil is 15.0 ohms. What is the peak current produced in the coil (in A)? (A) 37.5 (B) 84.3 (C) 68.4 (D) 24.9 (E) 12.0 (F) 50.3
The armature of a generator consists of a flat, square coil with 150 turns and sides with a length of 20.0 cm. The coil rotates in a magnetic field of 4.00 T at 300 revolutions per minute. The resistance of the coil is 15.0 ohms. What is the peak current produced in the coil (in A)? (A) 37.5 (B) 84.3 (C) 68.4 (D) 24.9 (E) 12.0 (F) 50.3
6. The armature of a generator consists of a flat, square coil with 150 turns and sides with a length of 20.0 cm. The coil rotates in a magnetic field of 4.00 T at 300 revolutions per minute. The resistance of the coil is 15.0 ohms. What is the peak current produced in the coil in A)? (A) 37.5 (B) 84.3 (C) 68.4 (D) 24.9 (E) 12.0 (F) 50.3
6. The armature of a generator consists of a flat, square coil with 150 turns and sides with a length of 20.0 cm. The coil rotates in a magnetic field of 4.00 T at 300 revolutions per minute. The resistance of the coil is 15.0 ohms. What is the peak current produced in the coil (in A)? (A) 37.5 (B) 84.3 (C) 68.4 (D) 24.9 (E) 12.0 (F) 50.3
An AC generator with armature loop area of 0.1 m2 and 20 turns, rotates the armature at 60 Hz within a static magnetic field with magnetic flux density of 0.2 T. A) Using V_emf^m=NAωB_0 sinωt, include below the appropriate numeric expression for V_emf^m as a function of time including units. (Hint: The peak emf voltage should be between 140 and 160 V.) B) Using MATLAB, plot the V_emf^m expression derived for part (a.) for time t ranging from 0 to...
6. The armature of a generator consists of a flat, square coil with 150 turns and sides with a length of 20.0 cm. The coil rotates in a magnetic field of 4.00 T at 300 revolutions per minute. The resistance of the coil is 15.0 ohms. What is the peak current produced in the coil (in A)? (A) 37.5 (B) 84.3 (C) 68.4 (D) 24.9 (E) 12.0 (F) 50.3 ОА OB OC O D ОЕ OF