A capillary tube shaped conductor (silindirik boru) with p resistivity has length d and itsdimensions shown in figure.Apply a potential difference Vo is applied between to ends. Show clearly which end positive andnegative.a) Show the direction of electric field, current, current density in the conductor.b) Calculate the current density J in the wirec) Calculate the magnetic field everywhere. Show and explain every step by using Ampere's Law.h1₂

Given:resistivity of the material, ρlength of the cylinder is dinner radius, r1outer radius,…

Answered: A capillary tube shaped conductor…

Similar questions

Consider a wire carrying a current due east in a location where the Earth’s field is due north. A) What is the direction of the force on the wire if both are parallel to the ground? B) Calculate the force per unit length on the wire, in newtons per meter, if the wire carries 19.5 A and the field strength is 2.85 × 10-5 T. C) What would the diameter be, in meters, of copper wire (with density ρ = 8.80 × 103 kg/m3) that would have its weight supported by this force in meters? D) Calculate the resistance per unit length, in ohms per meter, that this copper wire will have. Copper has a resistivity of ρR = 1.72 × 10-8 Ω⋅m. E) Calculate the potential difference per unit length, in volts per meter, of this wire.
I, Iz The picture shows two parallel wires where I1 is 19.6 amps, and I2 is 35.5 amps. The location A is in the plane of the two wires and is 30.0 mm from the left wire and 18.4 mm from the right wire. Given the direction of current in each wire, what is the B-field at the location A in micro teslas? (If the B-field points toward make it positive; if it points away from you, make it negative. Give answer as an integer with correct sign. Do not enter unit.) you,
Force between Parallel Wires You have two wires with current running through them (see image below). The wires are a distance d apart. Current 1 = 3.25 A Current 2 = 2.85 A d = 0.370 m What is the force per length between the wires? Put your answer in μΝ microNewtons/m (· :). m If the force per length is repulsive, put in a negative sign. If the force per length is attractive, leave your answer positive. Your Answer: Answer Wire 1 Current 1 Wire 2 Current 2
The figure shows a cross section of three very long parallel wires, eachcarrying a current of 2.0 A. The currents in the top and bottom rightwires are coming out of the page; the current of the bottom left wire isgoing into the page. The length of each leg of the triangle is R = 18.0mm.a) Draw a clear physics diagram of the problem with forces, fields, andimportant angles labeled.b) Find the magnitude and direction of the magnetic force on a 4.0-mlength of the top wire due to the bottom right wire.c) Find the total magnitude and direction of the magnetic force on a 4.0-mlength of the top wire due to the other two wires.d) Find the total magnitude and direction of the magnetic force on a 4.0-mlength of the bottom left wire due to the other two wires.
a)What is the current through R1 immediately after the switch S is closed? b) What is the current through R2 after the switch S has been closed for a very long time? Assume that the battery does not go dead.
In a long current carrying conductor, what will be the magnetic field lines? Show on the 2 dimensional graphic the orientation of the magnetic field lines. Current Current out of the page
When the current flows clockwise on a 2D diagram of a circuit, what is the direction of the magnetic field, clockwise, counter-clockwise, into the page, or out of the page?
a. b. c. An infinitely long cylinder is placed along the Assume the cylinder z-axis is of radins a and carries current with current density J = 1 az P Find outside the cylinder Find Ĥ inside the cylinder Find in both cases a and b
Let's lay a large copper wire 1 cm in diameter. A current of 10 A flows through the wire.What is the drift speed of the electrons in the wire?What is the magnetic field at the wire's surface?What magnetic force do the electrons flowing on the wire's surface surface of the wire?
The figure below shows a simplified model of a cardiac defibrillator, a device used to resuscitate patients in ventricular fibrillation. S R Rorso + The capacitor C charge through the resistor R (when the switch S is toggled to left) and discharge current through the patient's torso which is of resistance (when the switch S is toggled to right). This phenomenon allows the heart's normal rhythm to be reestablished. (a) If the capacitor is initially uncharged with C = 7.0 µF; ɛ = 1240 V, find the value of R (in ohms) required to charge the capacitor to a voltage of 800 V in 2.1 s. (b) If the capacitor is then discharged across the patient's torso with Rtorso = 1200 Q, calculate the voltage (in V) across the capacitor after 4.0 ms.
Please answer all for yomrwirk
please help

SEE MORE QUESTIONS