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
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A: According to Faraday second law Induced emf = rate of change of magnetic flux
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A: Given, current flowing through the wire is i=I the velocity of the loop is v→ The area of the loop…
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A: Solution:-Given thatArea of circular coil (A)=120 cm2=0.012 m2Number of turns (N)=210 turnsR=7…
Q: The figure below is a graph of the magnetic flux through a certain coil of wire as a function of…
A: By Faraday's law emf induces if equal to negative of the time derivative of magnetic flux. And time…
Q: Part A Is the induced current in the circuit clockwise or counterclockwise? clockwise…
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Q: A circular conducting loop of 5 turns and 0.040 m in radius is perpendicular to a magnetic field of…
A: Magnetic flux is defined as the product of a Magnetic field and the area of the loop it passes…
Q: A 105-turn square wire coil of area 0.040 m2 rotates about a vertical axis at 1,800 rev/min, as…
A: GIVEN, area= 0.040 m^2 ω=1800 revmin*1min 60 sec×2π rad1 rev=188.5 red/sec B=2.0 ✕ 10−5 T N=105
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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…
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A: Given: Single loop of wire with dimensions = L The plane of a much larger, rectangular single loop…
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A: Write the given values of this problem. R=10 ohmB=0.6 Tt=3 sech=10 cmw=15 cm
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A: Write the equation for the energy stored in magnetic field. Eenrgy storedU=12Inductance LCurrent I2…
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A: A) Write the expression for the induced emf and substitute the corresponding expression to obtain…
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Q: What is the peak emf produced by a 72-turn square coil (of side l = 23.5 cm, as shown in the diagram…
A: N = 72 l = 23.5 cm = 0.235 m A = l2 = 0.055 m2 f = 27.5 Hz B = 0.405 T e = ?
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A: Faraday's Law of Electromagnetic Induction Whenever there is a change in magnetic flux linked to 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: A single turn coil of radius 5.00 cm is held in a vertical plane and a magnet is rapidly moved…
A: A single turn coil , n=1 Radius of coil = r= 5 cm = 0.05 m B1= 0.040 T B2= 0.025 T t= 0.2 sec…
Q: A0.300-m-long bar moves on parallel rails that are connected through a 6.40 2 resistor, as shown in…
A: Given Length L=0.3 m Resistance R=6.40 Ohm B=1.30T I=1.70A
Q: Consider the arrangement shown in the figure below. Assume R = 7.00 n and t = 1.40 m, and a uniform…
A: Resistance = 7 ohm Length (L) = 1.4 m Magnetic field (B) = 2 T Current (I) = 0.5 A
Q: )An MRI technician moves his hand from a region of very low magnetic field strength into an MRI…
A: Magnetic field strength 4.40 TDiameter of the ring 2.20 cmTime taken to move into the field: 0.35 s
Q: A long straight line conductor carries a current i that increases at a rate di/dt. Below this…
A: We have a wire carrying current I which is constantly changing at a rate dI/dt. Below this at a…
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…
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A: Given: The uniform magnetic field between the poles is B = 50 T The frequency of rotation of the…
Q: Consider the arrangement shown in the figure below. Assume R = 6.00 Ω and ℓ = 1.20 m, and a uniform…
A: Given information: Here, R is the resistance, l is the bar’s length, B is magnetic field applied…
Q: A single turn coil of radius 7.00 cm is held in a vertical plane and a magnet is rapidly moved…
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Q: Below is a closed conducting loop within a magnetic field (for direction see picture). The loop is a…
A: Radius of loop, r=17cm⇒0.17m Rate of change of magnetic field, dBdt=157mT/s⇒0.157T/s Number of…
Q: Problem 3: A loop of wire with radius r = 0.015 m is in a magnetic field with magnitude B as shown…
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Q: Show that the length of a moving rod appears to be contracted.
A: Here, Length contraction: Two dramatic results of the special theory of relativity are that a rod is…
Q: A 100-turn square wire coil of area 0.040 m2 rotates about a vertical axis at 1,450 rev/min, as…
A: Coil of area (A) = 0.040 m2 Number of turns (N) = 110 Angular frequency (ω) = 1450 rev/min = 1450…
Q: Suppose a conducting rod is 87 cm long and slides on a pair of rails at 2.5 m/s. What is the…
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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 field through a single loop of wire 12.0 cm in radius and of 7.5 Ω resistance changes…
A: Given that : radius of wire loop (r) = 12 cm = 0.12 m resistance (R) = 7.5 ohm emf can be…
Q: Here you see a single loop of stiff wire, 10.0 cm on a side, immersed in a magnetic field of 0.225…
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Q: in the figure below, a square loop with 10 turns that is 10.0 cm on a side has a magnetic field…
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Q: a uniform magnetic field of 0.800 T. perpendicular to the plane of the figure. gure Part A XcX X X X…
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Q: In Figure I. below, the magnetic flux through the circular loop of r =2 m, increases according to…
A: According to Faraday's law, due to change in magnetic flux an emf will be induced whose magnitude is…
Q: One simple, though impractical, way to generate electrical power is shown below. A bar of metal with…
A: Length of the rod = L = 15 cm velocity = v = 0.4 m/s Magnetic field = B = 0.75 T Angle between v and…
Q: The figure below shows the same long straight wire with current i to the right and wire loops that…
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Q: A conductor consists of a circular loop of radius R = 29.0 cm and two long, straight sections as…
A: Magnetic field
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