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University Physics with Modern Physics

Hugh D. Young, Roger A. Freedman

Physics

14th edition Edition 路 1596 pages

ISBN: 9780321973610

Chapter 4: Q98PP (page 720)

Consider a bee with the mean electric charge found in the experiment. This charge represents roughly how many missing electrons? (a) $1.9 脳 10^{8}$ ; (b) $3.0 脳 10^{8}$ ; (c) $1.9 脳 10^{18}$ ; (d) $3.0 脳 10^{18}$

Short Answer

Expert verified

Option (a) $1.9 脳 10^{8}$ numbers of electrons are missing.

Step by step solution

01

The relation between number of electrons and a charge.

Given,

The charge of a bee $q = + 30 p C = + 30 脳 10^{- 12} C$ .

Therefore, the relation between the number of electrons for a charge $q$ is given by:

$n_{e} = \frac{q}{e}$

02

Calculating the number of electrons

We know that the value of each electron $e = 1.60 脳 10^{- 19} C / e l e c t r o n s$ , now putting all the values in the above equation we get:

$n_{e} = \frac{q}{e} = \frac{30 脳 10^{- 12} C}{1.60 脳 10^{- 19} C / e l e c t r o n} = 1.9 脳 10^{8} e l e c t r o n s$

Therefore, the number of electrons is $1.9 脳 10^{8}$

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Most popular questions from this chapter

Light Bulbs in Series and in Parallel. Two light bulbs have constant resistances of $400 惟$ and $800 惟$ . If the two light bulbs are connected in series across a $120 V$ line, find (a) the current through each bulb; (b) the power dissipated in each bulb; (c) the total power dissipated in both bulbs. The two light bulbs are now connected in parallel across the $120 V$ line. Find (d) the current through each bulb; (e) the power dissipated in each bulb; (f) the total power dissipated in both bulbs. (g) In each situation, which of the two bulbs glows the brightest? (h) In which situation is there a greater total light output from both bulbs combined?

A typical small flashlight contains two batteries, each having an emf of $1.5 V$ , connected in series with a bulb having resistance $17 惟$ . (a) If the internal resistance of the batteries is negligible, what power is delivered to the bulb? (b) If the batteries last for $1.5 h$ what is the total energy delivered to the bulb? (c) The resistance of real batteries increases as they run down. If the initial internal resistance is negligible, what is the combined internal resistance of both batteries when the power to the bulb has decreased to half its initial value? (Assume that the resistance of the bulb is constant. Actually, it will change somewhat when the current through the filament changes, because this changes the temperature of the filament and hence the resistivity of the filament wire.)

A $1.50 - m$ cylindrical rod of diameter $0.500 cm$ is connected to

a power supply that maintains a constant potential difference of $15.0 V$ across

its ends, while an ammeter measures the current through it. You observe that

at room temperature $(20 . 0^{鈭�} C)$ the ammeter reads $18.5 A$ while at $92 . 0^{鈭�} C$ it

reads $17.2 A$ . You can ignore any thermal expansion of the rod. Find (a) the

resistivity at and (b) the temperature coefficient of resistivity at for the material of the rod.

Two copper wires with different diameter are joined end to end. If a current flow in the wire combination, what happens to electrons when they move from the large diameter wire into the smaller diameter wire? Does their drift speed increase, decrease, or stay the same? If the drift speed change, what is the role the force that causes the change? Explain your reasoning.

(See Discussion Question Q25.14.) Will a light bulb glow more brightly when it is connected to a battery as shown in Fig. Q25.16a, in which an ideal ammeter is placed in the circuit, or when it is connected as shown in Fig. 25.16b, in which an ideal voltmeter V is placed in the circuit? Explain your reasoning.

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