dim|d,m| C dzm dzm A y B dzm d d1= 3 m d2= 4 m d3= 7 m m= 83 kg
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Determine the magnitude of the force in cable AB so that the force in cables AD and AC is half the value of the force in cable AB.
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- The figure below is a cross-sectional view of a coaxial cable. The center conductor is surrounded by a rubber layer, an outer conductor, and another rubber layer. In a particular application, the current in the inner conductor is I, = 1.06 A out of the page and the current in the outer conductor is I, = 2.96 A into the page. Assuming the distance d = 1.00 mm, answer the following. d (a) Determine the magnitude and direction of the magnetic field at point a. 424 magnitude If you construct an imaginary circle of radius d passing through point a, how much current passes through this circle? µT direction upward (b) Determine the magnitude and direction of the magnetic field at point b. magnitude 126.67 µT direction downwardA biophysics experiment uses a very sensitive magnetic field probe to determine the current associated with a nerve impulse traveling along an axon. If the peak field strength 1.0 mm from an axon is 8.0 pT, what is the peak current carried by the axon?An accelerating voltage of 2.51 x 103 V is applied to an electron gun, producing a beam of electrons originally traveling horizontally north in vacuum toward the center of a viewing screen 32.3 cm away. (a) What is the magnitude of the deflection on the screen caused by the Earth's gravitational field? (b) What is the direction of the deflection on the screen caused by the Earth's gravitational field? up down east west (c) What is the magnitude of the deflection on the screen caused by the vertical component of the Earth's magnetic field, taken as 20.0 μT down? east m (d) What is the direction of the deflection on the screen caused by the vertical component of the Earth's magnetic field, taken as 20.0 μT down? north south west mm (e) Does an electron in this vertical magnetic field move as a projectile, with constant vector acceleration perpendicular to a constant northward component of velocity? Yes No No (f) Is it a good approximation to assume it has this projectile motion? Yes…
- 5. An AC appliance cord has its hot and neutral wires separated by 3.35 mm and carries a root mean squared current of 4.10 A. What is the average force per meter (in N/m) between the wires in the cord? (Enter the magnitude.) N/m What is the maximum force per meter (in N/m) between the wires? (Enter the magnitude.) N/m Are the forces attractive or repulsive? Do appliance cords need any special design features to compensate for these forces?Use Kirchhoff's rules to calculate currents I1, I2, and I3, and compare them with the experimental results in tabular form.Needs Complete typed solution with 100 % accuracy.
- Find the magnitude (in N/m) and direction (in degrees counterclockwise from the +x-axis) of the force that each wire experiences in the figure by using vector addition. (Assume that the +x-axis is to the right and the +y-axis is up along the page.) Top wire magnitude N/m direction ° counterclockwise from the +x-axis Bottom left wire magnitude N/m direction ° counterclockwise from the +x-axis Bottom right wire magnitude N/m direction ° counterclockwise from the +x-axisFind the magnitude (in N/m) and direction (in degrees counterclockwise from the +x-axis) of the force per unit length that each wire experiences in the figure below, using vector addition. Wire B C D T X A 1₂ 1 C Magnitude N/m I₁ = 22.0 A, I₂ = 11.0 A, and x = 14.0 cm N/m N/m B N/m D X Direction O O OWhat is the current on the path 1-2 in the circuit below? 3 A 6.92e-4 A 1.4e-2 A 0 A
- Let's take a current-carrying cable with a gradually narrowing cross-sectional area along the length of the wire so the wire turns into the shape of a very long, truncated cone. How does the drift speed (vd) vary along the length of the wire? It speeds up with the length or vd first increases and then goes down after it reaches to a critical value.or It slows down with the length of the cable or vd remains the same regardless the cross section of the cable.9. Two differential current elements, I₁AL₁= 3×10° ay Am at P₁(1,0, 0) and 1₂AL2= 3×10 (-3a +4ay+5a) A⋅m at P₂(2, 2, 2), are located in free space. Find the vector force exerted on 12AL2 by I₁AL₁.An accelerating voltage of 2.36 x 10³ V is applied to an electron gun, producing a beam of electrons originally traveling horizontally north in vacuum toward the center of a viewing screen 37.9 cm away. (a) What is the magnitude of the deflection on the screen caused by the Earth's gravitational field? (b) What is the direction of the deflection on the screen caused by the Earth's gravitational field? up down east west (c) What is the magnitude of the deflection on the screen caused by the vertical component of the Earth's magnetic field, taken as 20.0 μT down? east m (d) What is the direction of the deflection on the screen caused by the vertical component of the Earth's magnetic field, taken as 20.0 µT down? north south west mm (e) Does an electron in this vertical magnetic field move as a projectile, with constant vector acceleration perpendicular to a constant northward component of velocity? Yes No O No (f) Is it a good approximation to assume it has this projectile motion? Yes…