Applied Physics
11th Edition
ISBN: 9780132719865
Author: EWEN, Dale
Publisher: PEARSON
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Chapter 16, Problem 8RP
Find the speed of sound in m/s at 85ºC at s1 atm pressure in dry air.
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The force of the quadriceps (Fq) and force of the patellar tendon (Fp) is identical (i.e., 1000 N each). In the figure below angle in blue is Θ and the in green is half Θ (i.e., Θ/2). A) Calculate the patellar reaction force (i.e., R resultant vector is the sum of the horizontal component of the quadriceps and patellar tendon force) at the following joint angles: you need to provide a diagram showing the vector and its components for each part. a1) Θ = 160 degrees, a2) Θ = 90 degrees. NOTE: USE ONLY TRIGNOMETRIC FUNCTIONS (SIN/TAN/COS, NO LAW OF COSINES, NO COMPLICATED ALGEBRAIC EQUATIONS OR ANYTHING ELSE, ETC. Question A has 2 parts!
Chapter 16 Solutions
Applied Physics
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Ch. 16.2 - What is the frequency of an electromagnetic wave...Ch. 16.2 - What is the wavelength in metres of an...Ch. 16.2 - Find the frequency of an electromagnetic wave with...Ch. 16.2 - Find the wavelength of a wave traveling at 2.68106...Ch. 16.2 - Find the wavelength of a wave traveling twice the...Ch. 16.2 - Prob. 16PCh. 16.2 - Prob. 17PCh. 16.4 - Find the speed of sound in m/s at 10C at 1 atm...Ch. 16.4 - Find the speed of sound in m/s at 35C at 1 atm...Ch. 16.4 - Find the speed of sound in m/s at 23C at 1 atm...Ch. 16.4 - How long will it take a sound to travel 21.0 m for...Ch. 16.4 - How long will it take a sound to travel through...Ch. 16.4 - A sound wave is transmitted through water from one...Ch. 16.4 - A sonar receiver detects a reflected sound wave...Ch. 16.4 - A woman is swimming when she hears the underwater...Ch. 16.4 - A train traveling at a speed of 40 m/s approaches...Ch. 16.4 - What frequency is heard by an observer who hears...Ch. 16.4 - A car is traveling toward you at 40.0 mi/h. The...Ch. 16.4 - A car is traveling away from you at 40.0 mi/h. The...Ch. 16.4 - A jet airplane taxiing on the runway at 13.0 km/h...Ch. 16.4 - While snorkeling you hear a dolphins sound as it...Ch. 16.4 - Two construction workers stand 112 m apart. One...Ch. 16.4 - What is the length of a brass pipe through which a...Ch. 16.4 - A crop duster airplane flies overhead at 44.7 m/s....Ch. 16.4 - Two iron workers are on a project 72.0 m apart. To...Ch. 16.4 - A construction worker 30.0 m above the ground...Ch. 16.6 - Find the length (in cm) of a pendulum with a...Ch. 16.6 - Find the length (in ft) of a pendulum with a...Ch. 16.6 - Find the period of a pendulum 1.25 m long.Ch. 16.6 - Find the period of a pendulum 2.00 ft long.Ch. 16.6 - Find the length (in in.) of a pendulum with a...Ch. 16.6 - Find the length (in m.) of a pendulum with a...Ch. 16.6 - Find the period of a pendulum 18.0 in. long.Ch. 16.6 - Find the period of a pendulum 35.0 cm. long.Ch. 16.6 - If you double the length of a pendulum, what...Ch. 16.6 - If you double the period of a pendulum, what...Ch. 16.6 - A grandfather clock has a 0.750-m pendulum. What...Ch. 16.6 - A grandfather clock has a pendulum with period...Ch. 16.6 - What is the period of a pendulum that is 0.25 m...Ch. 16.6 - What is the length of a pendulum with a period of...Ch. 16 - Prob. 1RQCh. 16 - The minimum distance between particles in a wave...Ch. 16 - Which of the following refers to the time required...Ch. 16 - Prob. 4RQCh. 16 - Prob. 5RQCh. 16 - Which of the following is an example of...Ch. 16 - Which of the following are electromagnetic waves?...Ch. 16 - Explain the difference between interference and...Ch. 16 - Explain the difference between constructive and...Ch. 16 - If waves did not exhibit the property of...Ch. 16 - Give an example of diffraction of water waves.Ch. 16 - What happens to the frequency of a vibrating...Ch. 16 - Explain the difference between a wave and a pulse.Ch. 16 - Prob. 14RQCh. 16 - What happens to the speed of sound when the...Ch. 16 - Explain how a seismograph works.Ch. 16 - How does the speed of sound differ in water and...Ch. 16 - Prob. 18RQCh. 16 - Distinguish between sympathetic and forced...Ch. 16 - In your own words, explain resonance.Ch. 16 - Prob. 21RQCh. 16 - Distinguish between amplitude and displacement.Ch. 16 - Distinguish between period and frequency.Ch. 16 - Does the period of a pendulum depend on its mass,...Ch. 16 - Find the period of a wave with frequency 355 kHz.Ch. 16 - Find the frequency of a wave with period 0.320 s.Ch. 16 - Prob. 3RPCh. 16 - Find the speed of a wave with frequency 8.97 Hz...Ch. 16 - What is the wavelength of longitudinal waves in a...Ch. 16 - Find the frequency of a wave produced by a...Ch. 16 - What is the wavelength of an electromagnetic wave...Ch. 16 - Find the speed of sound in m/s at 85C at s1 atm...Ch. 16 - Find the speed of sound in m/s at -35C at 1 atm...Ch. 16 - How long will it take a sound wave to travel...Ch. 16 - A sound wave is transmitted through water from one...Ch. 16 - A train traveling at a speed of 95 mi/h approaches...Ch. 16 - A car is traveling toward you at 95 km/h. The car...Ch. 16 - What is the frequency of the sound waves being...Ch. 16 - A pendulum has a length of 0.450 m. What is its...Ch. 16 - A pendulum has a period of 0.700 s. Find the...Ch. 16 - The pendulum on a grandfather clock is calibrated...Ch. 16 - The Tacoma Narrows Bridge, built across Puget...Ch. 16 - Maintaining strong AM radio reception when driving...Ch. 16 - The speed of an automobile can be determined using...
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- The force of the quadriceps (Fq) and force of the patellar tendon (Fp) is identical (i.e., 1000 N each). In the figure below angle in blue is Θ and the in green is half Θ (i.e., Θ/2). A) Calculate the patellar reaction force (i.e., R resultant vector is the sum of the horizontal component of the quadriceps and patellar tendon force) at the following joint angles: you need to provide a diagram showing the vector and its components for each part. a1) Θ = 160 degrees, a2) Θ = 90 degrees. NOTE: USE DO NOT USE LAW OF COSINES, NO COMPLICATED ALGEBRAIC EQUATIONS OR ANYTHING ELSE, ETC. Question A has 2 parts!arrow_forwardNo chatgpt pls will upvotearrow_forwardThe force of the quadriceps (Fq) and force of the patellar tendon (Fp) is identical (i.e., 1000 N each). In the figure below angle in blue is Θ and the in green is half Θ (i.e., Θ/2). A) Calculate the patellar reaction force (i.e., R resultant vector is the sum of the horizontal component of the quadriceps and patellar tendon force) at the following joint angles: you need to provide a diagram showing the vector and its components for each part. a1) Θ = 160 degrees, a2) Θ = 90 degrees. NOTE: USE ONLY TRIGNOMETRIC FUNCTIONS (SIN/TAN/COS, NO LAW OF COSINES, NO COMPLICATED ALGEBRAIC EQUATIONS OR ANYTHING ELSE, ETC. Question A has 2 parts!arrow_forward
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