A long closely wound solenoid with a magnetic field of 0.0380 T draws a current of 9.0 A. What number of turns must the solenoid have?
Q: A stationary square coil of area 0.1 m2 is brought over time of 2 s into the magnetic field 6.5 T…
A:
Q: solenoid that is 1.6 m long is wound with a 3000 turns of wire that carries 1.8 A of current. What…
A:
Q: An air-core solenoid with 66 turns is 8.00 cm long and has a diameter of 1.20 cm. When the solenoid…
A: Self-inductance for an air cored solenoid is given as:
Q: A single loop of wire with a radius of 7.5 cm rotates about a diameter in a uniform magnetic field…
A:
Q: Suppose instead the rod rotates at 8.20 rad/s about an axis through its center and perpendicular to…
A: To find the potential difference between the ends of the rod when it rotates about an axis through…
Q: What current is required in the windings of a long solenoid that has 950 turns uniformly distributed…
A:
Q: A 1000-turn solenoid is 50 cm long and has a radius of 2.0 cm. It carries a current of 8.0 A. What…
A: The magnetic field inside the solenoid near its center is uniform and is given by
Q: What is the magnetic field strength inside the solenoid? Use the formula for a finite solenoid…
A:
Q: 3. Figure 3 shows a uniform magnetic field B confined to a cylindrical volume of radius R. The…
A:
Q: A long solenoid that has 1 100 turns uniformly distributed over a length of 0.390 m produces a…
A:
Q: To scan a patient, you need a magnetic filed of 0.4 Tesla. You have a solenoid of length 0.08 meters…
A: Numbers of turn = 1500 Magnetic field (B) = 0.4 T Length = L = 0.08 m
Q: A long solenoid that has 930 turns uniformly distributed over a length of 0.410 m produces a…
A:
Q: A wire solenoid with 100 total turns is bent into the shape of a torus (doughnut) having a radius =…
A: The total number of turns in the torus, N=100 turns The radius of the torus, r=5 cm The amount of…
Q: solenoid that has 1,020 turns uniformly distributed over a length of 0.440 m produces a magnetic…
A: Magnetic field due to solenoid B = μ0 nI n=number of turn per unit lengh I = current
Q: You have designed and constructed a solenoid to produce a magnetic field equal in magnitude to that…
A:
Q: A long, straight wire carries a current of 46 A. The magnetic field produced by this current at a…
A: Given, Current=46A Magnetic field=9.4×10^-5T
Q: You would like to store 9.9 J of energy in the magnetic field of a solenoid. The solenoid has 560…
A:
Q: A solenoid produces a B = 9.13 mT magnetic field when a current of I = 1.71 A runs through it. How…
A:
Q: Flag question Let a and b be two unit vectors. a.(a+ (axb)) (a x b) + (bxa) a. (a x b) ax (a.b)…
A:
Q: A solenoid used to produce magnetic fields for research purposes is 2.0 m long, with an inner radius…
A:
Q: A long solenoid has 108 turn cm and carries current i . An electron moves within the solenoid in a…
A:
Q: You have designed and constructed a solenoid to produce a magnetic field equal in magnitude to that…
A:
Q: A solenoid that is 95.0 cm long has a radius of 2.00 cm and a winding of 1200 turns; it carries a…
A:
Q: A single loop of wire with a radius of 7.5 cm rotates about a diameter in a uniform magnetic field…
A:
Q: A solenoid that is 88.0cm long has a radius of 2.12cm and a winding of 1211 turns and carries a…
A:
Q: A very long solenoid with tightly wound coils has8.00 * 10^3 turns of wire per meter of length. What…
A: Givens, n=Nl=8×103B→=0.032T
Q: A conducting bar of length L rotates in a counterclockwise direction with a constant angular speed…
A: Given: Angular speed=+2.0 rad/sec B=0.20T L=0.40 m Formula used: Induced potential =rate of change…
Q: A solenoid with 32 turns per centimeter carries a current I. An electron moves within the solenoid…
A: No of solenoid turns N = 32 turns/ cm = 3200 turns/mR =2.2 cm = 2.2velocity of the…
Q: A solenoid with 31 turns per centimeter carries a current I. An electron moves within the solenoid…
A: No of solenoid turs N = 31 turns circulation radius of the electron is R = 2.2×10-2…
Q: A piece of copper wire has a resistance per unit length of 4.53 x 10^-3 Ohms/m. The wire is wound…
A: Magnetic field strength at the center of coil having N number of turns is given by as B= u°NI/(2r)
Q: the magnetic field at the center of this solenoid
A:
Q: You have designed and constructed a solenoid to produce a magnetic field equal in magnitude to that…
A: Magnetic field B= 5×10-5 T Number of turns N= 500 Length = 29cm = 29× 10-2m
Q: Solenoids are useful because they produce very strong magnetic fields. Consider a solenoid that…
A: Number of turns per meter, n = 2800 Current flowing through the solenoid, I = 0.55 A Magnetic field…
Q: A 200-turn solenoid having a length of 25 cm and a diameter of 10 cm carries a current of 0.29 A.…
A:
A long closely wound solenoid with a magnetic field of 0.0380 T draws a current of 9.0 A. What number of turns must the solenoid have?
Trending now
This is a popular solution!
Step by step
Solved in 2 steps
- It is desired to construct a solenoid that will have a resistance of 2.69 ohm and produce a magnetic field of 4.00 * 10 ^ - 2 at its center when it carries current of 3.71 A. The solenoid is to be constructed from copper wire having a radius of 0.250 mm and resistivity 1.7 * 10 ^ - 3 * Omega * m. If the radius of the solenoid is to be 1.00 cm, determine the following 1. Based on the specified resistance, the number of wire turns (or windings) used to create the solenold of? 2. To produce desired magnetic fieid with the specified current these wire turns will be unitormly distributed over a solenoid length (in cm) of?The drawing belowPeople have proposed driving motors with the earth's magnetic field. This is possible in principle, but the small field means that unrealistically large currents are needed to produce noticeable torques. Suppose a 17-cm-diameter loop of wire is oriented for maximum torque in the earth's field. What current would it need to carry in order to experience a very modest 1.0×10−3N⋅m1.0×10−3N⋅m torque?
- A stationary square coil of area 0.1 m2 is brought over time of 2 s into the magnetic field 8.9 T with its plane perpendicular to the magnetic field. The coil has 1030 turns. Calculate the magnetic flux linkage through the coil. Give your answer in SI units.A solenoid with 32 turns per centimeter carries a current I. An electron moves within the solenoid in a circle that has a radius of 1.7cm and is perpendicular to the axis of the solenoid. If the speed of the electron is 5.0×10^5 m/s, what is I?A small solenoid is 0.150m in length and 0.0150m in diameter, and has 600 turns of wire. What current is required to produce a magnetic field of 1.25x10^-3T at the center of the solenoid?
- A long solenoid has a length of 0.80 m and contains 1100 turns of wire. There is a current of 6.7 A in the wire. What is the magnitude of the magnetic field within the solenoid?In the figure, a long straight wire carries a current i = 45.0 A and a rectangular loop carries current iz = 25.5 A. Take a = 1.44 cm, b = 9.03 cm, and L = 23.0 cm. What is the magnitude of the net force on the loop due to i1? a iz Number Units Use correct number of significant digits; the tolerance is +/-2%In one of NASA's space tether experiments, a 20.0 km long conducting wire was deployed as a power source by the space shuttle as it orbited at 7.86 × 10³ m/s around earth and across earth's magnetic field lines. If the component of earth's magnetic field perpendicular to the tether was 1.16 x 10-5 T, determine the maximum possible potential difference between the two ends of the tether.
- A magnetic core with an air gap has a permeability that can be considered infinite. It has a coil of wire wrapped around the core. The following is known about the core: A = 4(10-4) m² (Cross sectional area of the core) N = 500 (turn in the coil) 1g = 2 mm How much current is needed in the coil to create a force of 8 N closing the gap? O 0.714 A O 1.41 A O 0.509 A O 2.02 AA solenoid is producing a magnetic field of B = 2.5 x 10-3 T. It has N = 1100 turns uniformly over a length of d = 0.15 m. Express the current I in terms of B, N and d.You wish to construct a solenoid with a diameter of 2.00 cm that will produce a magnetic field of 6.20 × 10¬2 T at its center when a current of 14.0 A is passing through the coils. You want the resistance of the coil wire to be 5.60 . The resistivity of the wire used is 1.70 x 10-8 N:m (at 20.0°C), and you are using a wire that has a cross sectional area of 3.14 × 10¬8 m². (Note that this solenoid may not necessarily be so tightly wound that the adjacent loops of wire will touch each other. Nonetheless, you may assume that it behaves like an ideal solenoid.) Determine the following. (a) number of turns needed on the solenoid turns (b) length of the solenoid