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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: Q64P (page 781)

Deflecting Plates of an Oscilloscope. The vertical deflecting plates of a typical classroom oscilloscope are a pair of parallel square metal plates carrying equal but opposite charges. Typical dimensions are about 3.0 cm on a side, with a separation of about 5.0 mm. The potential difference between the plates is 25.0 V. The plates are close enough that we can ignore fringing at the ends. Under these conditions: (a) how much charge is on each plate, and (b) how strong is the electric field between the plates? (c) If an electron is ejected at rest from the negative plate, how fast is it moving when it reaches the positive plate?

Short Answer

Expert verified

(a) Charge on a plate is $Q = 3.98 脳 10^{- 11} C$

(b) Electric field between the plates is $E = 5.0 脳 10^{3} N / C$

(c) Speed of electron is $2.97 脳 10^{6} m / s$

Step by step solution

01

Step 1:

Given data:

$V = 25.0 V d = 5.0 m m L = W = 3.0 c m$

(a) Here the electric field is

$V = E d 鈬� E = \frac{V}{d}$

So electric field is

$E = \frac{蟽}{{鈭�}_{0}} = \frac{Q}{A {鈭�}_{o}}$

Further solving

$\frac{V}{d} = \frac{Q}{A {鈭�}_{o}}$

Putting the values;

Hence, the charge on a plate is .

02

Step 2:

(b) Electric field between plates is;

Therefore, the electric field between the plates is .

03

Step 3:

(c) Electric force due to electric field is

Putting all the values therefore the value of acceleration is

Now the velocity is

Putting all the values

Hence when it reaches the positive plate speed of the electron is .

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Most popular questions from this chapter

Current passes through a solution of sodium chloride. In

$1.00 s, 2.68 脳 10^{16} {Na}^{+}$ ions arrive at the negative electrode and $3.92 脳 10^{16} {CI}^{-}$

ions arrive at the positive electrode. (a) What is the current passing between

the electrodes? (b) What is the direction of the current?

A particle of mass 0.195 g carries a charge of $- 2.50 脳 10^{- 8} C$ . The particle is given an initial horizontal velocity that is due north and has magnitude $4.00 脳 10^{4} m / s$ . What are the magnitude and direction of the minimum magnetic field that will keepthe particle moving in the earth鈥檚 gravitational field in the samehorizontal, northward direction?

A particle with charge $- 5.60 nC$ is moving in a uniform magnetic fieldrole="math" localid="1655717557369" $B = - (1.25 T) \hat{k}$

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A 12.4-碌F capacitor is connected through a 0.895-M鈩� resistor to a constant potential difference of 60.0 V. (a) Compute the charge on the capacitor at the following times after the connections are made: 0, 5.0 s, 10.0 s, 20.0 s, and 100.0 s. (b) Compute the charging currents at the same instants. (c) Graph the results of parts (a) and (b) for t between 0 and 20 s

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