show ALL steps to get answer. A 2.0-cm-diameter loop of wire with a resistance of 0.015 0 is placed in the center o...
2. Shown at right is a 4.0 cm-diameter loop with resistance 0.10 Ω around a 2.0-cm-diameter solenoid. The solenoid is 10 cm long, has 100 turns, and carries the current shown in the graph. A positive current is CW when seen from the left. Find the current in the loop at Isol (A) 20 sol 2.0 cm 4.0 em 0 t (s) 1 12 3 20 (a) t 0.5 s (b) t 1.5 s (c) t 2.5 s 2. Shown...
A 4.0-cm-diameter loop with resistance 0.11 Ω around a 2.0-cm-diameter solenoid. (Figure 1) The solenoid is 10 cm long, has 100 turns, and carries the current shown in the graph (Figure 2). A positive current is cw when seen from the left Find the current in the loop at t = 1.5 s. Express your answer to two significant figures and include the appropriate units. Isol / OOOOOOOOOOC DO 4.0 cm 2.0 cm
Problem 33.37 A 4.0-cm-diameter loop with resistance 0.17 S2 around a 2.0-cm- diameter solenoid. The solenoid is 15 cm long, has 100 turns, and carries the current shown in the graph. A positive current is cw when seen from the left. Figure 1 Figure 1 of 1 (A) 20 r (s) 4,0 cm 2.0 cm 0 20 Part A Find the current in the loop at t 0.5s. Express your answer as an integer and include the appropriate units. I...
A 4.0-cm-diameter loop with resistance 0.17 12 around a 2.0-crn-diameter solenoid. (Figure 1) The solenoid is 11 cmn long, has 100 turns, and carries the current shown in the graph (Figure 2). A positive current is cw when seen from the left. Part A Find the current in the loop at t = 0.5 8. Express your answer as an integer and include the appropriate units. I(0.5) = OA Previous Answers ✓ Correct Part B Find the current in the...
Problem 30.46 < 13 of 13 > A 4.0-cm-diameter loop with resistance 0.10 S2 around a 2.0-cm-diameter solenoid. The solenoid is 15 cm long, Io hoooooooooodbo 4.0 cm 2.0 cm has 100 turns, and carries the current shown in the graph Isol (A) 20 - Tito It() Problem 30.46 ③ 13 of 13 - Part A Find the current in the loop at t = 0.5 s. Express your answer as an integer and include the appropriate units. I(0.5) =...
A solenoid passes through the center of a wire loop, as shown in (Figure 1). The solenoid has 1200 turns, a diameter of 2.0 cm, and is 7.5 cm long. The resistance of the loop is 0.032 Ω. Part A If the current in the solenoid is increased by 1.3 A in 30 ms, what is the induced current in the loop?
Review Part A (Figure 1) shows a 1.0-cm-diameter loop with R 0.70 2 inside a 2.0-cm-diameter solenoid. The solenoid is 8.0 cm long, has 130 turns, and carries the current shown in the graph. A positive current is cw when seen from the left. Determine the current in the loop at t 0.010 s? Express your answer with the appropriate units Figure 1 of 1 Units I-Value Submit evious Answe Answe Incorrect Try Again; 10 attempts remaining 0.5 2.0cm 10...
A square, single-turn wire loop ℓ = 1.00 cm on a side is placed inside a solenoid that has a circular cross section of radius r = 3.00 cm, as shown in the end view of the figure below. The solenoid is 24.5 cm long and wound with 104 turns of wire. (a) If the current in the solenoid is 2.30 A, what is the magnetic flux through the square loop? T · m2 (b) If the current in the...
C) Find the current in the loop at t = 2.5s. Express your answer as an integer and include the appropriate units. PartA A 40-cm-diameter loop with resistance 0.19 Ω around a 2.0-cm-diameter solenoid. The solenoid is 14 cm long, has 100 turns, and carries the current shown in the graph. A positive current is cw when seen from the left. Figure 1) Find the current in the loop at t 0.5s. Express your answer as an integer and include...
A solenoid of length 20 cm and diameter 4 cm is constructed with 400 turns of wire The resistance of the wire can be neglected. A currenti is supplied to the solenoid in such a wav tha increases from zero to 0.5 A at a uniform rate over 2 seconds. Th 0.5 A. Calculate: e current then stays constant at (a) the inductance of the solenoid, (b) the maximum magnetic field in the solenoid, (c) the potential difference across the...