Physics of Everyday Phenomena
Physics of Everyday Phenomena
9th Edition
ISBN: 9781259894008
Author: W. Thomas Griffith, Juliet Brosing Professor
Publisher: McGraw-Hill Education
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Chapter 13, Problem 5SP

A 850-W toaster, a 1200-W waffle iron, and a 1000-W coffeemaker are all connected to the same 115-V household circuit, fused at 20 A. (See figure 13.19 for a similar arrangement.)

a.    What is the current drawn by each of these appliances?

b.    If these appliances are all turned on at the same time, will there be a problem? Explain.

c.    What is the resistance of the heating element in the waffle iron?

(a)

Expert Solution
Check Mark
To determine

The equivalent resistance of the two parallel segments.

Answer to Problem 5SP

The current drawn by the toaster is 7.39A. The current drawn by waffle iron is 10.4A. The current drawn by coffee maker is 8.70A.

Explanation of Solution

Given info: The wattage of the toaster is 850W. The wattage of the waffle iron is 1200W. The wattage of the coffeemaker is 1000W. The voltage is 115V. The circuit is fused at 20A.

Different instruments in parallel will draw current depending on the resistance or wattage of them.

Write the formula for the current drawn by the toaster.

IT=PTV

Here,

IT is the current through toaster

PT is the power of the toaster

V is voltage supply

Substitute 850W for PT, 115V for V to determine IT.

IT=850W115V=7.39A

Write the formula for the current drawn by the waffle iron.

II=PIV

Here,

II is the current through waffle iron

PI is the power of the waffle iron

Substitute 1200W for PT, 115V for V to determine IT.

II=1200W115V=10.4A

Write the formula for the current drawn by the coffee maker.

IC=PCV

Here,

IC is the current through coffee maker

PC is the power of the coffee maker

Substitute 850W for PT, 115V for V to determine IT.

IC=1000W115V=8.70A

Conclusion:

The current drawn by the toaster is 7.39A. The current drawn by waffle iron is 10.4A. The current drawn by coffee maker is 8.70A.

(b)

Expert Solution
Check Mark
To determine

When all these appliances are on together whether there will be any problem.

Answer to Problem 5SP

When all appliances are on the circuit will get fused.

Explanation of Solution

Given info: The wattage of the toaster is 850W. The wattage of the waffle iron is 1200W. The wattage of the coffeemaker is 1000W. The voltage is 115V. The circuit is fused at 20A.

The maximum total current that can flow in the circuit is the current at which the circuit will get fuse.

Write the formula for the total current when all the appliances are on.

I=IT+II+IC

Here,

II is the current through waffle iron

IT is the current through toaster

IC is the current through coffee maker

I is the total current

Substitute 7.39A for IT, 10.4A for II, 8.70A for IC to determine I.

I=7.39A+10.4A+8.70A=26.5A

The total current in the circuit when all appliances are on is 26.5A which is higher than 20A. Thus when all appliances are on the circuit will get fused.

Conclusion:

When all appliances are on the circuit will get fused.

(c)

Expert Solution
Check Mark
To determine

The resistance of the heating element of the waffle iron.

Answer to Problem 5SP

The resistance of the heating element of the waffle iron is 11Ω.

Explanation of Solution

Given info: The wattage of the toaster is 850W. The wattage of the waffle iron is 1200W. The wattage of the coffeemaker is 1000W. The voltage is 115V. The circuit is fused at 20A.

Write the formula for the resistance.

R=PI2

Here,

R is the resistance

I is the current

P is the power

Substitute 1200W for P, 10.4A for I to determine R.

R=1200W10.4A2=11Ω

Conclusion:

The resistance of the heating element of the waffle iron is 11Ω.

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Chapter 13 Solutions

Physics of Everyday Phenomena

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Ohm's law Explained; Author: ALL ABOUT ELECTRONICS;https://www.youtube.com/watch?v=PV8CMZZKrB4;License: Standard YouTube License, CC-BY