a (°C)-1 Aluminum 25 x 10-6 Bismuth 13.5 x 10-6 Brass 18.5 x 10-6 12 x 10-6 17 x 10-6 Material Concrete Copper Glass Gold Iron Lead Nickel Silver Part 1: Rivets 9 x 10-6 14 x 10-6 12 x 10-6 29 x 10-6 13 x 10-6 19.5 x 10-6 A nickel rivet 1.974 cm in diameter is to be placed in a hole 1.973 cm in diameter. If the rivet is initially at 30°C, to what temperature must it be cooled to fit in the hole? °C Part 2: Pendulum A simple pendulum (a small weight attached to the end of a brass thread) has a period of 2.4 s when at a temperature of -11°C. The temperature then increases to 47°C. Determine the change in the pendulum's period. Deriod change = Part 3: Standing waves in a string The fundamental frequency on a lead string that is fixed both ends is 414 Hz. The string is then cooled 192°C and as such its length changes. Determine how much the fundamental frequency will change as a result assuming the tension remains constant.

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Material
Aluminum
Bismuth
Brass
Concrete
Copper
Glass
Gold
Iron
Lead
Nickel
Silver
Part 1: Rivets
a
(°C)-¹
25 x 10-6
13.5 x 10-6
18.5 x 10-6
12 x 10-6
17 x 10-6
9 x 10-6
14 x 10-6
12 x 10-6
29 x 10-6
13 x 10-6
19.5 x 10-6
A nickel rivet 1.974 cm in diameter is to be placed in a hole 1.973 cm in diameter. If the rivet is initially at 30°C, what temperature must be cooled to fit in the hole?
°C
Part 2: Pendulum
A simple pendulum (a small weight attached to the end of a brass thread) has a period of 2.4 s when at a temperature of -11°C. The temperature then increases to 47°C. Determine the change in the pendulum's period.
period change =
Part 3: Standing waves in a string
The fundamental frequency on a lead string that is fixed at both ends is 414 Hz. The string is then cooled 192°C and as such its length changes. Determine how much the fundamental frequency will change as a result
assuming the tension remains constant.
Af₁ =
Transcribed Image Text:Material Aluminum Bismuth Brass Concrete Copper Glass Gold Iron Lead Nickel Silver Part 1: Rivets a (°C)-¹ 25 x 10-6 13.5 x 10-6 18.5 x 10-6 12 x 10-6 17 x 10-6 9 x 10-6 14 x 10-6 12 x 10-6 29 x 10-6 13 x 10-6 19.5 x 10-6 A nickel rivet 1.974 cm in diameter is to be placed in a hole 1.973 cm in diameter. If the rivet is initially at 30°C, what temperature must be cooled to fit in the hole? °C Part 2: Pendulum A simple pendulum (a small weight attached to the end of a brass thread) has a period of 2.4 s when at a temperature of -11°C. The temperature then increases to 47°C. Determine the change in the pendulum's period. period change = Part 3: Standing waves in a string The fundamental frequency on a lead string that is fixed at both ends is 414 Hz. The string is then cooled 192°C and as such its length changes. Determine how much the fundamental frequency will change as a result assuming the tension remains constant. Af₁ =
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