Design the length of the cylindrical resistor of radius, r=2mm, to attain a resistance of 100Ω....

The figure shows a resistor of resistance R = 6.27 Ω connected to an ideal battery...

The figure shows a resistor of resistance R = 6.27 Ω connected to an ideal battery of emf  = 13.9 V by means of two copper wires. Each wire has length 21.9 cm and radius 2.90 mm. In dealing with such circuits in this chapter, we generally neglect the potential differences along the wires and the transfer of energy to thermal energy in them. Check the validity of this neglect for the circuit of the figure below. What is the potential...

You have a cylindrical 20 Ω carbon resistor (ρ=5x10-5 Ω m) that is 1.0 cm long...

You have a cylindrical 20 Ω carbon resistor (ρ=5x10-5 Ω m) that is 1.0 cm long and has a cross section area of 0.1 mm2. The resistor is connected to a 5 V battery. Part 1: What is the resistance of the resistor if its area is doubled? Part 2: By what factor does the power dissipated by the resistor change if the resistor length is halved and the battery voltage is doubled? Part 3: By what factor does the...

1. a) A cylindrical length of wire has a radius of 4 mm and a length...

1. a) A cylindrical length of wire has a radius of 4 mm and a length of 10 cm. If the length is growing at a rate of 2 cm/sec and the radius is shrinking at a rate of 1 mm/sec, what is the rate of change of the volume in cm^3 /sec at that point in time. (Be careful of units) b) Consider the same length of wire as before (radius of 4 mm and length of 10 cm)....

A cylindrical tank of radius R is filled with a liquid of density  to a...

A cylindrical tank of radius R is filled with a liquid of density  to a height H above its bottom. It has a small hole of radius r in the mantle at distance h above its bottom. Air pressure equals p0. You are to use Bernoulli’s equation to compute the flow velocity of the fluid as it exits the hole. a) Prepare a diagram. Indicate the location of the two points that you choose when applying Bernoulli’s equation. What...

1. A cylindrical region of space of radius R contains a uniform magnetic field B with...

1. A cylindrical region of space of radius R contains a uniform magnetic field B with direction into the page. If the magnitude B inside the cylinder changes in time and outside the cylinder it is zero, describe the induced electric field (magnitude and direction) for points inside the cylinder (r < R). Find the magnitude and direction of the induced electric field at r = 5.00 cm if the magnetic field changes at a constant rate from 0.500T to...

Connect a battery to a solenoid A cylindrical solenoid 38 cm long with a radius of...

Connect a battery to a solenoid A cylindrical solenoid 38 cm long with a radius of 6 mm has 275 tightly-wound turns of wire uniformly distributed along its length (see the figure). Around the middle of the solenoid is a two-turn rectangular loop 3 cm by 2 cm made of resistive wire having a resistance of 135 ohms. One microsecond after connecting the loose wire to the battery to form a series circuit with the battery and a 20  resistor, what...

A wire with a radius R = .89 mm and length 45 cm is made of...

A wire with a radius R = .89 mm and length 45 cm is made of two materials, Carbon and Nichrome (resistivity not given I assume it needs to be googled). The Carbon portion is 15 cm long. The temperature of the wire is 75 oC. The wire is connected to a 12 volt battery. a) Find the total Resistance of the battery as well as the current (I) and the current density (J) and the electric field (E) in...

(a) Calculate the conductivity and resistance of a silicon sample. Given that: area = 5 cm2,...

(a) Calculate the conductivity and resistance of a silicon sample. Given that: area = 5 cm2, length = 1 cm, electron mobility = 1000 cm2/(V × s), and number of free electrons = 1 X 1010 cm-3 at 300K. (3 points equation 1 point, correct answer 1.5 points and correct unit 0.5 point) (b) If we increase the temperature, will resistance increase, decrease or remain same? Explain (1 point)

A cylindrical capacitor of length 1 cm, inner radius 0.010 cm, and outer radius 0.015 cm...

A cylindrical capacitor of length 1 cm, inner radius 0.010 cm, and outer radius 0.015 cm is filled with water, which has dielectric constant K = 80.10 at 20◦C. Assume the capacitor has been connected to an ideal 6V battery for a long enough time for the system to have reached equilibrium. a). Find the surface charge densities in the water on both the inner and outer surface. What is the field ~ D as a function of r inside...

1)Electrical resistance for a wire of any size can be calculated using the relation: R =...

1)Electrical resistance for a wire of any size can be calculated using the relation: R = pL/A where R = resistance ?, p = resistivity (?-cm), L = wire length (cm), p = 112 u? cm. For a 10-m length of 16-gauge (diameter = 1.291 mm) nichrome wire, find the resistance. If a current of 4 A flows in the wire, find the voltage drop and power dissipation. 2)A standard power value for a household incandescent lightbulb is 60 W....