A long straight wire is held fixed in a horizontal position. A second parallel wire is 2.6 mm below the first but is free to fall under its own weight. The second wire is copper (density 8920 kg/m3), with diameter 1.6 mm. What equal current in both wires will suspend the lower wire against gravity
Q: Two horizontally displaced long parallel wires have currents flowing as shown. The distance between…
A:
Q: as part of a lecture demonstration, a physics professor plans to hold an ununsulated current…
A:
Q: ) Express the magnitude of the force between the wires per unit length, f, in terms of I1, I2, and…
A:
Q: A copper wire with a square cross-section (side length 5.00 µm) is next to an iron wire with a…
A:
Q: Located a distance 2 cm below an electron moving to the right with a velocity of 220 km/s, ds shown,…
A:
Q: In the accompanying figure, the rails, connecting end pieces, and rod all have a resistance per unit…
A:
Q: 25. A coaxial cable consists of a solid inner cylindrical conductor of radius 2 mm and an outer…
A:
Q: A copper wire with a square cross-section (side length 5.00 µm) is next to an iron wire with a…
A: Voltage is produced perpendicular to current and field. This voltage is hall voltage. The effect…
Q: he figure below shows two long, parallel wires in cross-section, and the currents they carry are…
A:
Q: Two long wires are parallel to the zaxis and are located at x = 0, y = ±a. Take a = 6 cm. a) Find B…
A:
Q: You know that Wires 1 and 2 are a distance, d = 0.81 m, apart and that they carry the same current,…
A: The distances between wires 1 and 2 is 0.81 m, and that between wires 2 and 3 is 2.43 m Wires 1 and…
Q: A portion of a long, cylindrical coaxial cable is shown in the figure below. An electrical current I…
A:
Q: Two very long coaxial cylindrical conductors are shown in cross-section below. The inner cylinder…
A: Electric fields are generated by a static charges or as well as by moving charge but magnetic fields…
Q: Taking R = 2.30 kN and Ɛ= 490 V in the figure shown below, determine the magnitude and direction of…
A: Let's draw the currents flowing through the circuit .
Q: A square loop of nichrome wire (resistivity = 1.50 x 106 2.m) measures 1 cm per side. The wire has a…
A: Solution: To find the voltage of the ideal battery, we need to first determine the magnetic field…
Q: The figure below shows a cross sectional view of 5 wires separated by a distance 0.0147 m. The…
A:
Q: Two 44 meter long parallel wires experience an attractive force of 0.006 N. If they are 0.42 m apart…
A: Length of the wires, L=44m Attractive force, F=0.006N Distance between the wires, d=0.42m Current in…
Q: Two VERY LONG wires are placed along parallel lines as shown below in the picture. The wire ON THE…
A:
Q: 2a. Find the magnetic field the iron wire exert on the copper wire in μT. (For this part only,…
A:
Q: A large spool in an electrician’s workshop has 75 m of insulation coated wire coiled around it. When…
A: Given Data: The initial length of coated wire L1=75 m Initial Current through the wire I1=2.4 A…
Q: The figure below shows two long, parallel wires in cross-section, and the currents they carry are…
A: Given: I1 = 2.96 AI2 = 3.5 Ad = 20 cm = 0.2 m
Q: Week Paient No kVp Current (mA) Time (s) K'(kVp) K(kVp) (mGy) (mGy/MA-min) 1 1 80 200 2 1.2 2 90 150…
A: We cannot complete the table because of there are missing data.
Q: A copper wire with a square cross-section (side length 5.00 µm) is next to an iron wire with a…
A: Given, The copper wire with a square cross-section ,side length, L = 5.00 µm = 5×10-6 m The iron…
Q: Two very long, parallel wires are separated by d = 0.065 m. The first wire carries a current of I1 =…
A:
Trending now
This is a popular solution!
Step by step
Solved in 3 steps
- An electron with a speed of 6.7 × 104m/s is moving parallel to a wire that’s carrying a current of 1A. If the electronmoving is in the opposite direction of the technical current at a distance of 15cm from the wire what is the acceleration experienced by this electron?(5) Current is flowing through a cylindrical copper wire with radius 6.33mm and length 92.1cm. This wire is hooked up to two capacitors in series C1 = 9.42,1F and C2 = 8.11µF. The capacitors both have cross sectional areas of A = 179cm2. (a) At a given moment in time, the current is I = 77.97A and the drift velocity of the electrons is va = 45.6µm/s. What is the number density of electrons in this wire? (b) At a given moment in time, the charge on capacitor 2 is 62.6uC. What is the total change in potential across both capacitors combined? (c) At the moment described in part (b), what is the energy stored in capacitor 2? (d) At the moment described in part (b), what is the energy density of the electric field in capacitor 2? %3DThree cylindrical wires are made of the same material. Their lengths and radii arewire 1: length ℓ, radius 2rwire 2: length 2ℓ, radius rwire 3: length 3ℓ/2, radius r/2 With the currents you calculated, rank them according to the current density through the cross section of the wires, greatest first.
- The figure shows a cross section of three parallel wires each carrying a current of 24 A. The currents in wires B and C are out of the paper, while that in wire A is into the paper. If the distance R = 5.0 mm, what is the magnitude of the force on a 4.0-m length of wire C?A light bulb is connected via 2 copper wires of length L = 10 m and diameter d = 0.7 mm with aDC voltage source and a switch. The resulting current is I = 1 A and the density of charge carriersis n=5 ⋅ 10^28 m−3. At time t = 0, the switch is flipped, closing the before open circuit. After whattime t1 does the lightbulb begin to shine?Taking R = 1.80 kN and8 = 340 V in the figure shown below, determine the magnitude and direction of the current in the horizontal wire between a and e. magnitude direction from a to e R 2R be d 2E 4R 3R
- You know that Wires 1 and 2 are a distance, d = 0.81 m, apart and that they carry the same current, I = 18.7 A, in opposite directions. You also know that Wires 2 and 3 are a distance, x = 2.43 m, apart. What you don't know, but really need to find out, is... "How much current flows through Wire 3 -- and which way?" You would just measure the current, if your ammeter wasn't broken. Then you remembered the magnetometer that the Tooth Fairy left under your pillow last year, and realized that you could deduce the current in Wire 3 from the measured magnetic field strength! A and it flows ---Select--- ---Select--- up down (b) Calculate the magnetic force per unit le left right N/m into the page out of the page FB on 3 L (c) Will Wire #3 be attracted or repelled by the other two? n the new wire. attract repel up left out (a) Using the magnetometer, you determined that the magnetic field midway between Wires 2 and 3 was 2.9 μT, and that it pointed straight upwards. What then is the size and…as part of a lecture demonstration, a physics professor plans to hold an ununsulated current carrying wire in her hands. For safety sake, the potential differnece between her hands is to be no more that 1.50v. She holds her hands 1.20m apart, with the wire stretched tightly between them. The wire is to carry 6.00 A of current and is to be made of aluminum. What is the minimum wire radius that is consistent with safety? p for aluminimum = 2.75 x 10 -8 omega-mThe figure below shows two long, parallel wires in cross-section, and the currents they carry are directed out of the page. The left wire carries a current of I1 = 2.96 A,and the right carries a current of I2 = 3.50 A.The two wires are a distance d =20.0 cm apart. Point P is the same distance d above the right wire.Assume the +x-direction is to the right, and the +y-direction is upward. What are the magnitude (in T) and direction (in degrees) of the net magnetic field due to the two wires at a point P? Measure the angle counterclockwise from the positive x-axis, with point P at the origin of the coordinate system. (Ignore the magnetic field due to the Earth.)
- The figure below shows two long, parallel wires in cross-section, and the currents they carry are directed out of the page. The left wire carries a current of I1 = 2.92 A, and the right carries a current of I2 = 3.45 A. The two wires are a distance d = 20.0 cm apart. Point P is the same distance d above the right wire. Assume the +x-direction is to the right, and the +y-direction is upward. A) What are the magnitude (in T) and direction (in degrees) of the net magnetic field due to the two wires at a point midway between the wires? Measure the angle counterclockwise from the positive x-axis, with the midpoint at the origin of the coordinate system. (Ignore the magnetic field due to the Earth.) B) What are the magnitude (in T) and direction (in degrees) of the net magnetic field due to the two wires at a point P? Measure the angle counterclockwise from the positive x-axis, with point P at the origin of the coordinate system. (Ignore the magnetic field due to the Earth.)Two VERY LONG wires are placed along parallel lines as shown below in the picture. LEFT (at X1= 0) has a current going out of the page of value, li = 4 A. The current on the RIGHT (at X2= d) has a current going into the page of the page of value, 2 = 6 A. The point "P" is at the location (x=6.00cm, z=10.4cm) The wire ON THE d d d Wire 1 Wire 2 a. Find the magnitude of the magnetic field due to wire 2 at the location of wire 1 The Biot-Savart law say the direction of the magnetic field at a field point located in a direction f (from source to field point) where a source wire carries a current in the direction î is î X Î b. Find the unit directions for î and Î and perform the cross product to determine the direction of the magnetic field due to wire2 at the location of wire1. c. Using the formula format find the force per unit length in “I.j,k" d. Find the magnitude of the magnetic field due to wire2 at the location of field point P e. Find the unit directions for f and Î and perform the…One long straight wire is to be held directly above another by repulsion between their currents. The lower wire carries 100 A and the wire 7.50 cm above it is 10-gauge (2.588 mm diameter) copper wire. (a) What current must flow in the upper wire, neglecting the Earth’s field? (b) What is the smallest current if the Earth’s 3.00×10−5 T field is parallel to the ground and is not neglected? (c) Is the supported wire in a stable or unstable equilibrium if displaced vertically? If displaced horizontally?