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Chapter 4: Q8DQ (page 808)

Two parallel-plate capacitors, identical except that one has twice the plate separation of the other, are charged by the Same voltage source. Which capacitor has a stronger electric field Between the plates? Which capacitor has a greater charge? Which has greater energy density? Explain your reasoning.

Short Answer

Expert verified

The capacitor with the smaller separated distance has a greater electric field.

The capacitor with the smaller separated distance has a greater charge.

The capacitor with a larger electric field has a larger energy density

Step by step solution

01

About energy density

Energy density can be measured in energy per volume or per mass. The higher the energy density of a system or material, the greater the amount of energy it has stored.

02

:Determine capacitor have strong electric field between the plates 

Given

We are given two parallel-plate capacitors, identically except that one has twice the plate separation this means the next

Required

Which capacitor has a stronger electric field E, charge Q and energy density u

Explanation

The electric field depends on the separated distance between the two plates and it is given by

As shown by equation (1), the electric field is inversely proportional to the separated distance d as the distance increases the electric field decreases.

If we solve equation (1) to E1 and E2 we could get the ratio between the two electric fields as next

Therefore, the capacitor with the smaller separated distance has a greater electric field.

03

Determine which capacitor has greater charge

The distributed charge over the plates is related the the potential difference and the capacitance of the capacitor in the next form

But the capacitance is related to the distance between the two plates as shown by equation 24.2

Let us use this expression for C into equation (2), we will find that

As shown by this equation, the charge is inversely proportional to the distance d. If we solve equation (2) to Q1 and Q2 we could get the ratio between the two charges as next where the two capacitors have the same area

Therefore, the capacitor with the smaller separated distance has a greater charge.

04

Step 4:Determine The Energy density

The energy density depends on the electric field as shown by equation 23.11 in the form

As shown by this equation, the capacitor with a larger electric field has a larger energy density. The capacitor with the smallestseparateddistance has the largest electric field, hence has the largest energy density.

Therefore the The capacitor with a larger electric field has a larger energy density

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Most popular questions from this chapter

Question: A conducting sphere is placed between two charged parallel plates such as those shown in Figure. Does the electric field inside the sphere depend on precisely where between the plates the sphere is placed? What about the electric potential inside the sphere? Do the answers to these questions depend on whether or not there is a net charge on the sphere? Explain your reasoning.

An electron moves at 1.40×106m/sthrough a regionin which there is a magnetic field of unspecified direction and magnitude 7.40×10-2T. (a) What are the largest and smallest possible magnitudes of the acceleration of the electron due to the magnetic field? (b) If the actual acceleration of the electron is one-fourth of the largest magnitude in part (a), what is the angle
between the electron velocity and the magnetic field?

BIO The average bulk resistivity of the human body (apart from surface resistance of the skin) is about 5.0Ω·m. The conducting path between the hands can be represented approximately as a cylinder 1.6 m long and 0.10 m in diameter. The skin resistance can be made negligible bysoaking the hands in salt water. (a) What is the resistance between the hands if the skin resistance is negligible? (b) What potential difference between thehands is needed for a lethal shock current of 100 mA ? (Note that your result shows that small potential differences produce dangerous currents when the skin is damp.) (c) With the current in part (b),what power is dissipated in the body?

You want to produce three 1.00-mm-diameter cylindrical wires,

each with a resistance of 1.00 Ω at room temperature. One wire is gold, one

is copper, and one is aluminum. Refer to Table 25.1 for the resistivity

values. (a) What will be the length of each wire? (b) Gold has a density of1.93×10-4kgm3.

What will be the mass of the gold wire? If you consider the current price of gold, is

this wire very expensive?

The text states that good thermal conductors are also good electrical conductors. If so, why don’t the cords used to connect toasters, irons, and similar heat-producing appliances get hot by conduction of heat from the heating element?
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