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Chapter 21: Q74P (page 629)

A $100W$ lamp has a steady current of $0.83A$ in its filament. How long is required for $1mol$ of electrons to pass through the lamp?

Short Answer

Expert verified

The time taken by one mole of electrons to pass through the lamp is $螖 t = 1.3 d a y s$

Step by step solution

01

Given

Current, $i = 0.83 鈥碱$ ,

Power, $P = 100 鈥塛$ ,

$1 鈥� mole = 6.02 脳 10^{23} 鈥塧迟辞尘蝉$

02

Understanding the concept

The rate at which the energy is transferred between two bodies is known as power. It can also be defined as the amount of energy $(E)$ transferred from one body to another in the unit time interval.

$P = \frac{E}{t}$

Here, t is the time taken to transfer energy $(E)$ .

03

Calculate the time required for 1 mol of electrons to pass through the lamp

Electric current $(i)$ is the rate of transfer of charge with respect to time.

$i = \frac{螖 q}{螖 t}$

If $i = 0.83 鈥碱$ , the time it takes for one mole of electron to pass through the lamp is

$\begin{matrix} 螖 t = \frac{螖 q}{i} \\ = \frac{(6.02 脳 10^{23}) (1.60 脳 10^{鈭� 19} 鈥塁)}{0.83 鈥� A} \\ = 1.16 脳 10^{5} 鈥塻别肠 \\ =1.34鈥塪补测蝉 \end{matrix}$

One mole of electrons can pass in $1.34 鈥塪补测蝉.$

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Most popular questions from this chapter

The charges of an electron and a positron are $-eand+e$ . The mass of each is $9 .11 脳 10^{鈭� 31} 鈥塳驳$ .What is the ratio of the electrical force to the gravitational force between an electron and a positron?

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