Magnetic field strength in space as shown in the figure below.Find the emf induced in a square conductor loop with side length 1 m in a region H = ā,900 sin(106t – x) + ā„900 sin(107t – z) + ā,500 cos(6×10’t – y) ZA
Q: A 10-turn ideal solenoid has an inductance of (3.9x10^-3) H. To generate an EMF of (1.16x10^0) V…
A:
Q: In the figure, the loop is being pulled to the right at constant speed v. A constant current I flows…
A: Given, current flowing through the wire is i=I the velocity of the loop is v→ The area of the loop…
Q: Part A Is the induced current in the circuit clockwise or counterclockwise? clockwise…
A:
Q: A long Solenoid with n=900.0 turns/m has a radius of r= 10.0 cm and carries a current of I= 0.5 A.…
A: Given,Answers for part a and ba) 0.5655×10-3 Tb) 0.5655×10-3 Tc) ϕ=0.003183 cos(120πt) WbMaximum…
Q: A rectangular loop of length L and width W is placed in a uniform magnetic field B with its plane…
A:
Q: [4: Faraday's Law] In the figure shown. (a) determine the magnetic flux through the loop due to the…
A:
Q: A 16 turn conductive loop with an enclosed are of 0.55 m^2 exists in the plane of the page. A…
A:
Q: Consider a circular loop of wire of radius r lying in the xy plane, as shown in figure below. The…
A: Given, A circular loop of radius r and place in decreasing magnetic field.
Q: WR b. The power (P) supplied to an electric circuit is given by P i? dt. If i = 63 * I sin(wt), I is…
A: P=ωR2π∫02πωi2dtGiven that,i=63×Isinωt
Q: A rectangular loop of length L and width W is placed in a uniform magnetic field B with its plane…
A: We will first write an expression for induced emf. Then we apply this expression to the given…
Q: As shown in the figure, the wire is of uniform thickness, the current passing through is 5A, the…
A:
Q: At the instant a current of 0.40 A is flowing through a coil of wire, the energy stored in its…
A: Write the equation for the energy stored in magnetic field. Eenrgy storedU=12Inductance LCurrent I2…
Q: The rectangular loop of N turns shown below moves to the right with a constant velocity v while…
A: Approach to solving the question: This question is based upon the concept of Faraday's law of…
Q: At what speed (in meters per second) must the sliding rod in the figure below move to produce an emf…
A:
Q: 1) A transmission line is made made out of two parallel wires of 5 mm radius as shown in the figure…
A: Given data, Current in the each wire = I Radius of each wire = 5 mm Distance between wires = 3.5 cm…
Q: Please help me ... I need solution with full detals.
A: The objective of the question is to calculate the induced electromotive force (emf) in a conducting…
Q: You have two single turn circular loops of wire oriented such that they have a common center and the…
A: (a) The net magnitude of the magnetic field at the common center is, Bnet=Nμ0I2R2+Nμ0I2R2=2Nμ0I2R…
Q: Problem 2: As shown in the figure, a rod completes a circuit as it slides with constant velocity, v,…
A:
Q: Consider two concentric solenoids of the same length. The inner solenoid has radius a and number of…
A:
Q: As shown in the figure, a wire and a 10-02 resistor are used to form a circuit in the shape of a…
A:
Q: 1. (a) What quantity is changing in order to produce an induced emf according to Faraday's law? (b)…
A: Loops having varying magnetic flux
Q: A conducting bar slides over two circular rails while rotating around a straight wire as shown in…
A: Faraday's law When the magnetic field is varied around a conductor, an EMF is induced across it…
Q: Microphones are used to convert sound vibrations to electrical signals. In one kind of microphone,…
A: The number of turns of the coil, N=100 The diameter of the coil, D=1.2 cm The magnitude of the…
Q: The magnetic circuit below has two windings and two air gaps. The core can be assumed to be of…
A: Since you have posted a question with multiple sub parts, we will provide the solution only to the…
Q: Suppose a large generator rotates in the Earth's magnetic field. The strength of this magnetic field…
A: The strength of the Earth's magnetic field isThe number of loops in the generator is The frequency…
Trending now
This is a popular solution!
Step by step
Solved in 4 steps
- A 500-turn square coil of wire is hinged to the top of a table, as shown in the (Figure 1). Each side of the coil has a length of 0.50 m. Figure W T= 20 Z N•m N 1 ? S Hinge Determine the magnitude of the torque acting on the free end of the coil and caused by a 0.30-T field pointing westward when there is a 0.80-A current through the wire and when the coil is parallel to the table. Express your answer with the appropriate units. Hinge IEThe figure below shows the same long straight wire with current i to the right and wire loops thatwe have seen previously. In this problem, we will focus just on loop (a), the larger square loop onthe left. At the time depicted in the figure, the upper edge is at some distance y from the long wire,the loop has edge length L, and has resistance R. Note that the flux calculation is essentially thesame as presented in example 27.2 in the text.Give a proper answer for the following (undrstandable writing )
- A flexible circular loop 8.00 cm in diameter lies in a magnetic field with magnitude 2 T, directed into the plane of the page in the figure. The loop is pulled at the points indicated by the arrows, forming a loop of zero area in 0.300 s. Find the average induced emf in the circuit. What is the direction of the induced magnetic field What is the direction of the induced current in R? (From a to b or b to a) If you rotate the circular loop as the top part out of page, what is the direction of the induced current in R? (From a to b or b to a) If you move the circular loop inside the magnetic field with a constant velocity toward the right, what is the direction of the induced current in R? (From a to b or b to a)Needs Complete typed solution with 100 % accuracy.Induced EMF Below is a closed conducting loop within a magnetic field (for direction see picture). The loop is a circle with a radius of r = 5.00 cm. The magnetic field is decreasing in the direction shown at a rate of dB/dt = 157.0 mT/s. The circle wire has 305.0 loops around it. The wire has a total resistance of R = 2.80 Ohms. Magnetic Field (into the page) 8) What is the induced current around the wire in this system? (use a negative value for a clockwise current) Make sure to give your answer in an appropriate number of significant figures as well as including units with your answer. Your Answer: Answer units PLEASE TAKE OUT TRASH AT EOS IG
- A 100-turn coil is rotating with a constant angular speed in a uniform magnetic field of 0.486 T that is perpendicular to its surface at t= 0 s. The diameter of the coil is 10 cm. Calculate the magnitude (i.e., positive value) of the electric charge induced in the coil during half a revolution, in mC, if the resistance of the coil is 39.7 N. Calculate i like in the previous problem, and then solve the integral i. dt to find the induced charge (T is the period).A "double-loop" planar structure shown in the figure below is made out of a thin wire with the resistance per unit length 5-0.131 /m. The length parameter of the structure a-47.4 cm. The structure is in the region of the uniform magnetic field as shown, where the normal component of the field changes with time t as B(t)-B, cos(2xft), where amplitude 8-349.8 G and frequency f-74 Hz. B a 2a X X X X Xax Q With the harmonically varying magnetic field, the induced currents in various segments of the structure will also be changing periodically with the same frequency. Find magnitude Io of the variable induced current in segment PQ shown in the figure: Jo=At the instant a current of 0.90 A is flowing through a coil of wire, the energy stored in its magnetic field is 4.0 x 10 J. What is the self-inductance of the coil (in H)?