Question 24.94: Consider a particle with charge q = 1.50 × 10^-8 C, and take......

Fundamentals of Physics Extended – Instructor’s Solutions Manual [1360823]

Consider a particle with charge q = 1.50 × 10 $^{-8}$ C, and take V = 0 at infinity. (a) What are the shape and dimensions of an equipotential surface having a potential of 30.0 V due to q alone? (b) Are surfaces whose potentials differ by a constant amount (1.0 V, say) evenly spaced?

Step-by-Step

The 'Blue Check Mark' means that this solution was answered by an expert.
Learn more on how do we answer questions.

(a) Using Eq. 24-26, we calculate the radius r of the sphere representing the 30 V equipotential surface:

$V=\frac{1}{4 \pi \varepsilon_0} \frac{q}{r}$ (24-26)

$r=\frac{q}{4 \pi \varepsilon_0 V}=\frac{\left(8.99 \times 10^9\, N \cdot m ^2 / C ^2\right)\left(1.50 \times 10^{-8} \,C \right)}{30\, V }=4.5\, m$ .

(b) If the potential were a linear function of r then it would have equally spaced equipotentials, but since V ∝ 1/r they are spaced more and more widely apart as r increases.

Related Answered Questions

Question: 24.103

In Fig. 24-72, two particles of charges q1 and q2 are fixed to an x axis. If a third particle, of charge +6.0 μC, is brought from an infinite distance to point P, the three-particle system has the same electric potential energy as the original two-particle system. What is the charge ratio q1/q2? ...

Verified Answer:

Since the electric potential energy is not changed...

Question: 24.102

A charge of 1.50 × 10^-8 C lies on an isolated metal sphere of radius 16.0 cm. With V = 0 at infinity, what is the electric potential at points on the sphere’s surface? ...

Verified Answer:

We imagine moving all the charges on the surface o...

Question: 24.101

In the quark model of fundamental particles, a proton is composed of three quarks: two “up” quarks, each having charge +2e/3, and one “down” quark, having charge -e/3. Suppose that the three quarks are equidistant from one another. Take that separation distance to be 1.32 × 10^-15 m and calculate ...

Verified Answer:

(a) Let the quark-quark separation be r. To “natur...

Question: 24.100

An alpha particle (which has two protons) is sent directly toward a target nucleus containing 92 protons. The alpha particle has an initial kinetic energy of 0.48 pJ. What is the least center-to-center distance the alpha particle will be from the target nucleus, assuming the nucleus does not move? ...

Verified Answer:

The distance r being looked for is that where the ...

Question: 24.99

(a) Using Eq. 24-32, show that the electric potential at a point on the central axis of a thin ring (of charge q and radius R) and at distance z from the ring is V =1/4πε0 q/√z²+R². (b) From this result, derive an expression for the electric field magnitude E at points on the ring’s axis; compare ...

Verified Answer:

(a) The charge on every part of the ring is the sa...

Question: 24.98

In Fig. 24-71, a metal sphere with charge q = 5.00 μC and radius r = 3.00 cm is concentric with a larger metal sphere with charge Q = 15.0 μC and radius R = 6.00 cm. (a) What is the potential difference between the spheres? If we connect the spheres with a wire, what then is the charge on (b) the ...

Verified Answer:

(a) The potential difference is

\begin{al...

Question: 24.97

A solid copper sphere whose radius is 1.0 cm has a very thin surface coating of nickel. Some of the nickel atoms are radioactive, each atom emitting an electron as it decays. Half of these electrons enter the copper sphere, each depositing 100 keV of energy there. The other half of the electrons ...

Verified Answer:

THINK The increase in electric potential at the su...

Question: 24.93

A uniform charge of +16.0 μC is on a thin circular ring lying in an xy plane and centered on the origin. The ring’s radius is 3.00 cm. If point A is at the origin and point B is on the z axis at z = 4.00 cm, what is VB – VA? ...

Verified Answer:

THINK To calculate the potential at point B due to...

Question: 24.92

In Fig. 24-70, point P is at the center of the rectangle. With V = 0 at infinity, q1 = 5.00 fC, q2 = 2.00 fC, q3 = 3.00 fC, and d = 2.54 cm, what is the net electric potential at P due to the six charged particles? ...

Verified Answer:

The net electric potential at point P is the sum o...

Question: 24.89

Initially two electrons are fixed in place with a separation of 2.00 μm. How much work must we do to bring a third electron in from infinity to complete an equilateral triangle? ...

Verified Answer:

The net potential at point P (the place where we a...