Two VERY LONG wires are placed along parallel lines as shown below in the picture. The wire ON THE LEFT (at X1= 0) has a current going out of the page of value, Ii = 4 A. The current on the RIGHT (at X2= d) has a current going into the page of the page of value, I2 = 6 A. The point "P is at the location (x=6.00cm, z=10.4cm)
Q: The figure below shows a cross sectional view of 5 wires separated by a distance d = 0.0342 m. The…
A:
Q: as part of a lecture demonstration, a physics professor plans to hold an ununsulated current…
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: Problem 1: = 0.1 m. In the figure below four wires are on the corners of a square with a side of…
A: Net Magnetic field at point P is (8×10−6i^−8×10−6j^)TExplanation:Step 1: Step 2: Step 3: Step 4:
Q: A long straight wire is held fixed in a horizontal position. A second parallel wire is 2.6 mm below…
A: To find the current required to suspend the lower wire, we need to calculate the magnetic force…
Q: In the accompanying figure, the rails, connecting end pieces, and rod all have a resistance per unit…
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: e figure below shows a cross sectional view of 5 wires separated by a distance d = 0.0416 m. The…
A: Let the currents into the page be written as negative and currents out of the page be positiveThe…
Q: The drawing shows an end-on view of three parallel wires that are perpendicular to the plane of the…
A:
Q: The switch shown has been in position a for a long time. It is changed to position b at t = 0 s.…
A: The expression for the charge on the capacitor, Substitute,
Q: An electron moves with speed v = infinite conducting wire, at a distance d I = 5 A flows through the…
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: Four long straight wires are laid out on a grid as follows:
A: Diagram - Also we know that magnetic feild due to a long straight wire is B=B=μ0I/(2πr) =…
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: 1 carries a constant current ?1 = 80.0 ? out of the page. Wire 2 carries a constant current ?2 =…
A: given that I1 = 80 A OUTWARD THE PLANE I2= 60 A Inward the plane distance of…
Q: Two VERY LONG wires are placed along pârallel lines as shown below in the picture. The wire ON THE…
A:
Q: Two VERY LONG wires are placed along parallel ines as shown below in the picture. The wire ON THE…
A: Answer is option 2
Q: The figure below shows a cross sectional view of 5 wires separated by a distance 0.0147 m. The…
A:
Q: 2a. Find the magnetic field the iron wire exert on the copper wire in μT. (For this part only,…
A:
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 set of wires arranged on the corners of a square of side length ? each carry a different current,…
A: Given data: I1→=-I k^ I2→=-10I k^ I3→=I2 k^
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: (5) Current is flowing through a cylindrical copper wire with radius 6.33mm and length 92.1cm. This…
A: A capacitor is an electronic device that is used to store electric charge in a circuit, and the…
Q: voltage difference is applied a long a wire on the x axis, as shown. A positive charge q1 = +2.0 μC…
A: A positive charge q1 = +2.0 μC moves from left-to-right.A negative charge q2 = –2.0 μC moves from…
Q: Taking R = 1.80 kN and &E = 340 V in the figure shown below, determine the magnitude and direction…
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: as part of a lecture demonstration, a physics professor plans to hold an ununsulated current…
A: Required potential difference (V) ≤ 1.50 VSeperation between two hands (L) = 1.20 mCurrent (I) =…
Q: of 202/cm. The rod moves to the left at v= 4 m/s. If B = 0.75 the current in the circuit (a) when a…
A:
Q: Two VERY LONG wires are placed along parallel lines as shown below in the picture. The wire ON THE…
A: Concept used: Current carrying conductor produces magnetic field. Note: Since we only answer up…
Q: the Bohr model of the hydrogen tom, the electron in the lowest mergy state (ground state) moves with…
A: Speed ( v ) = 2.2 × 106 m/s Radius ( r) = 5.3 × 10-11 m Magnitude of charge on electron Charge…
Q: d. Find the magnitude of the magnetic field due to wire2 at the location of field point P e. Find…
A: Magnetic Field due to a current carrying conductor: The magnetic field at a distance r from a long…
Q: During the 4.0 min a 5.0 A current is set up in a wire, how many (a) coulombs and (b) electrons pass…
A:
Q: A particle with a mass of 8.95 x 10-3 kg and a charge of -5.50 μC has, at a given instant, a…
A: Mass of particle = m = 8.95×10-3 kg Charge of the particle = q = -5.50 μC = -5.5×10-6 C Velocity of…
Q: Four wires meet at a junction. In two of the wires, currents I = 1.35 A and I2 = 2.03 A enter the…
A: Currents: I1 = 1.35 A I2 = 2.03 A I3 = 6.37 A I4 = ? Given that I1 and I2 are entering the junction…
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 3 images
- During the 4.8 min a 7.0 A current is set up in a wire, how many (a) coulombs and (b) electrons pass through any cross section of the wire's width?The electric field in three different wires (I, II, III) made of the same metal, with current flowing in the wires, is shown below. (The rest of the circuit, including the battery, is not shown.) The electric field in each wire is: É 1 = É 3 = (0.050, 0, 0) V/m and É 2 = (0.800, 0, 0) V/m. Wires I and III have a diameter d1 = 0.005 m, and Wire |l has a diameter d = 1.25 × 10¬3 m. In Wire I, 6.19 х 1018 electrons flow per second at an average drift speed 3.5 x 10-º m/s. di d2 dị A В C x=0 x=0.5 m x=0.6 m x=1.6 m I II III5. Consider two (1 and 2) wires both having constant circular cross sectional areas: wire 1 has diameter = d, ; wire 2 has diameter = d. Potential differences are applied across each wire so that they both carry current. The current in wire 1 is I, and in wire 2 it is I, ; the the magnitude of the current density in wire 1 is J, and in wire 2 it is J,. If I,= I, and J, = (2) J, then wire diameters must be such that d, = (?) d. a. 2/2 b. V212 c. 2 d. V2 e. V214
- A copper wire with a square cross-section (side length 5.00 µm) is next to an iron wire with a rightward current of 3.00 A. The two wires are parallel over a region of 20.0 cm, where they are 1.60 cm apart. The iron wire produces a magnetic field on the copper wire. The copper wire is connected to a 5.00 V power source, with current directed rightward. Data of copper: resistivity = 1.68 x 10-8 Ohm m; free electron number density = 8.50 x 1028/m3In the Bohr model of the hydrogen atom, an electron in the 8th excited state moves at a speed of 3.42 x 104 m/s in a circular path having a radius of 3.39 x 10-9 m. What is the effective current associated with this orbiting electron?Two VERY LONG wires are placed along parallel lines as shown below in the picture. The wire ON THE LEFT (at X:= 0) has a current going out of the page of value, I1 ='4 A. The current on the RIGHT (at X2= d) has a current going into the page of the page of value, l2 = 6 A. The point "P" is at the location (x=6.00cm, z=10.4cm) 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 (from source to field point) where a source wire carries a current in the î is Pxi 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" 1, 1, x B, 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 cross product to determine the direction of the magnetic field due to wire2 at the…
- A caterpillar of length 6.00 cm crawls in the direction of electron drift along a 8.20-mm-diameter bare copper wire that carries a uniform current of 38.0 A. (a) What is the potential difference between the two ends of the caterpillar? (b) Is its tail positive or negative relative to its head? (c) How much time does the caterpillar take to crawl 2.30 cm if it crawls at the drift speed of the electrons in the wire? (The number of charge carriers per unit volume is 8.49 × 1028 m-3 and resistivity of copper is 1.69 × 10-8 Ω·m.)Two VERY LONG wires are placed along parallel lines as shown below in the picture. LEFT (at Xı= 0) has a current going out of the page of value, I = 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 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 îxî 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 "Ij,k" = 1, I, x B, d. Find the magnitude of the magnetic field due to wire2 at the location of field point e. Find the unit directions for f and Î and…