4. Calculate the phase angle difference between the electric and magnetic fields in a perfect conductor.
Q: 8. An aircraft has a width of w = 20 m from the tip of one wing to the tip of the other. Suppose…
A:
Q: 1. How much force is felt on a proton (mp 1.67 x 10-27 kg; e = 1.60 x 10-¹9 C) which enters a 5 T…
A: Mass of proton = 1.67×10-27 kg Charge of proton q= 1.6×10-19 C Magnetic field B = 5 T Velocity v =…
Q: Find the electromagnetic energy stored in the air gap between two very large magnetic pole pieces,…
A: Given data: The area is A=10000 mm2. The magnetic field is B=0.05 T. The electric field is E=1000…
Q: 2. A long wire carrying 4.5 A of current makes two 90° bends, as shown below. The bent part of the…
A: We are given the length of the wire. The magnetic field is given in +z direction. The magnetic…
Q: 2. A uniform electric field 480 V/m is directed from left to right on the page. An electron moves…
A:
Q: 4. A metal rod moves with constant velocity along two parallel metal rails connected with a strip of…
A: We will first write an expression for motional emf, that is, emf induced due to motion of…
Q: 2. Two long wires carry the same current of 5 A in opposite directions, spaced by 1 cm | as shown 1…
A: The magnitude of the magnetic field is,
Q: 3. A uniform magnetic field pointing out of the page has a changing field strength B(t) = at² + c in…
A: Given, magnetic field is, B = at2 + c radius of circular page is, r = R So magnetic flux will be,…
Q: A flat, square coil of 20 turns that has sides of length 15.0 cm is rotating in a magnetic fieldof…
A:
Q: A flat loop of wire consisting of a single turn of cross-sectional area 20.0 cm² is perpendicular to…
A:
Q: 7. A circular loop of wire of radius 0.399 m and a resistance of 0.500 Ohms is placed in a spatially…
A: Given,B→(t) = (0.050 T/s2)t2Radius = r = 0.399 mResistance = R = 0.500 Ωa) As per the Faraday's Law…
Q: 2. A rectangular loop (a = 0.15 m, b = 0.46 m) is pulled from a space where there is a uniform…
A: Givena = 0.15 m b = 0.46 mSpeed of loop = v = 4.20 m/s Resistance of the loop = 60 ohmStrength of…
Q: 7. In the diagram shown below, a 0.45 T uniform magnetic field is directed into the plane of the…
A: Given: The strength of the magnetic field is 0.45 T into the plane. The resistance of the circuit is…
Q: 2. A uniform magnetic field B is perpendicular to the plane of a circular loop of diameter 10 cm…
A:
Q: 3. A circular loop of wire with radius r and resistance R is immersed in a uniform magnetic field…
A:
Q: 1. A single strand of wire of adjustable length is wound around the circumference of a round balloon…
A:
Q: 3. Moving a straight magnet inside a coil that has 2700 turns increases the Magnetic Flux from 0 to…
A: Part B: Part C:
Q: 4. A circular loop in the plane of the paper lies in a 0.60 T magnetic field pointing into the…
A: Given Data :Magnitude of Magnetic field B= 0.6 TResistance of coil R= 2.55Initial diameter di…
Q: 6. A straight conductor of length 100 cm moves 90° to its axis at a velocity of 100 m/sec in a…
A: Based on the image you sent, it appears to be a technical drawing of a metal bracket with a hole…
Q: The magnetic field of a cylindrical magnet that has a pole-face diameter of 3.3 cm can be varied…
A:
Q: 1. How much force is felt on a proton (mp 1.67 x 10-27 kg; e = 1.60 x 10-¹9 C) which enters a 5 T…
A:
Q: Electric field lines can be shielded by the Faraday cage effect. Can we have magnetic shielding? Can…
A:
Q: 1. A straight wire of length 20 cm sweeps across a 0.95 T magnetic field with speed of 1.50 m/s.…
A: When a conducting loop or a wire is placed in an external magnetic field, the conductor experiences…
Q: 2. A circular loop consisting of a single turn of wire and a diameter of 15 cm lays flat at the edge…
A:
Q: 2. A time-dependent magnetic field is directed perpendicular to a given circular section of a…
A: According to faraday's law ,changing magnetic flux produces an induced electric field.
Q: What is the final value of the magnetic field after this time period?
A:
Q: An electron is accelerated from rest by a potential difference of 1000 V. It then enters a uniform…
A: Radius will be given by following formula: r=2qPmqB Here q is the charge, P is the potential…
Step by step
Solved in 3 steps
- 2. The figure below shows a 99-turn square coil rotating about a vertical axis at at ? = 1,520 rev/min. The length of a side of the coil is 20.0 cm. The horizontal component of the Earth's magnetic field at the coil's location is equal to 2.00 ✕ 10−5 T. a) What is the magnitude of the maximum emf (in mV) induced in the coil by the Earth's magnetic field? mV b) What is the orientation of the coil with respect to the magnetic field when the maximum emf occurs? The plane of the coil is oriented 45° with respect to the magnetic field. The plane of the coil is perpendicular to the magnetic field. The plane of the coil is parallel to the magnetic field.2. A slinky is stretched so that there is a gap of 0.95cm between each loop. The magnetic field at the center of the slinky is measured for a range of currents and a graph is plotted of B (in milli-Tesla) versus current I (in Amperes). The result is a straight line with a slope of 0.14 mT/A and an intercept of 0.024 mT. Determine the value of 4 from this result.5. A circular coil with a radius of 5 cm is made up of 30 loops. Its orientation makes the magnetic field lines normal to the area of the coil. If the magnetic field is varied from 0.25 T to 0.45 T in 1 hour, what is the average induced EMF in the coil?
- 5. What is the induced emf for a single ring of cross section area 0.25 m² if it is in a magnetic field which is reduced from 0.45 T to 0.25 T in 8.0 ms? Assume that the magnetic field is oriented to be GO perpendicular to the plane containing the ring?10-- Find the electromagnetic energy stored in the air gap between two very large magnetic pole pieces, one North, one South, each with an area of 10000 mm2. Assume the 0.05 T magnetic and electric 1000 V/m fields are uniform within the 3-cm gap. Show step by step solution.1) A lamp emits radiation with an rms magnetic field strength of 3.4 x 107 T. In seconds, calculate the time it would take for a target of area 0.04 m² to absorb 310 J of energy if placed under the lamp.
- 2. The figure below shows a metal plate with a width of w = 2 cm and a thickness of t = 0.1 cm. An electric current I = 20A is applied to it and placed in a magnetic field B in the direction shown in the figure. When the applied magnetic field is 2 tesla, the resulting Hall voltage of 4.28 V. Based on the above, determine the electron drift velocity (Vd)!5. An emf is induced by rotating a 980–turn, 23.0 cm diameter coil in the Earth’s 5.30×10-5 T magnetic field. What average emf is induced, given the plane of the coil is originally perpendicular to the Earth’s field and is rotated to be parallel to the field in 10.0 ms? THIS IS NOT AND WILL NOT BE GRADED2. The current in a very long solenoid with radius a and n turns per unit length varies over time as i(t) = Ct². Concentric with the solenoid is a conducting ring of radius r. a) Write an expression for the potential difference induced in the ring. b) Write an expression for the magnitude of the electric field induced at an arbitrary point on the ring. c) Is the ring necessary for the induced electric field to exist? Radius = r Radius i(t) = Ct² -O V = V(t) = a