Homework Answers
Add Answer to:
8. 30 pts Two microphones at different locations measure the same sound. Microphone 15 100 m...
Start the Sound (uses Java) simulation (opens in a new window). Select the Measure" tab at...
Start the Sound (uses Java) simulation (opens in a new window). Select the Measure" tab at the top left corner of your simulation window. Set the frequency to 200 Hz (once you click on the frequency button you can use the left and right arrow keys on your keyboard to decrease/increase the frequency to the desired value). Also set the amplitude to maximum. The waves are very now well defined. Pause the simulation. There are two blue lines that you...
Please help with question 2,3 and 4 and filling out the table Lab 12. Sound Waves...
Please help with question 2,3
and 4 and filling out the table
Lab 12. Sound Waves and Beats Introduction Sound waves consist of a series of air pressure variations. A Microphone diaphragm records these variations by moving in response to the pressure changes. The diaphragm motion is then converted to an electrical signal. Using a Microphone and an interface, you can explore the properties of common sounds. The first property you will measure is the period, or the time for...
10. [15 pts] A 50 m tall tree is located 100 m away from where you...
10. [15 pts] A 50 m tall tree is located 100 m away from where you are standing. When you put on a pair of glasses, the image of the tree is only 10 m tall and is right-side up. A. Determine the focal length of the lenses in the pair of glasses. Show your work and describe your problem-solving process. f= B. What type of lens is this? For full credit, you must explain your reasoning. O Concave O...
Paisley stands in front of two speakers as shown which emit the same tone, in phase....
Paisley stands in front of two speakers as shown which emit the same tone, in phase. She is 7.00 m from speaker A and 5.00 m fromB speaker B. a. What are the two lowest frequencies for which she hears: i. a loud sound? [171.5 Hz, 343 Hz] ii. a quiet sound [85.8 Hz, 257 Hz] d-5.00m A-7.00m b. The frequency of the speakers is then changed to 686 Hz Does Paisley hear a loud sound or a quiet sound?...
12. If the velocity of sound in the lab is 344 m/s, what is the wavelength...
12. If the velocity of sound in the lab is 344 m/s, what is the wavelength of a 440 Hz sound? What is the period of a 1000 Hz sound? elodinye brsbnsl ws em onoilsup3 the 13. What are the four states of matter? What are the properties of each? Give an (Obseexample of each. s:7 vipo ars 14. Relative to states of matter: What is sublimation? Deposition? sups E ngo nent a. Sublimation noo cle13 b. Depositiona botono ale...
9. 25 pts] A pendulum of mass m suspended from a string of length L has...
9. 25 pts] A pendulum of mass m suspended from a string of length L has initial displacement and is released from rest. A. Write an equation for the pendulum's angular displacement as a function of time in terms of known variables. Describe how you arrived at your answer B. Sketch a qualitatively accurate graph of the pendulum's translational velocity vs time Label your scale in terms of the given quantities, and label your axes C. You make a second...
Example 18.7 The Mistuned Piano Strings Two identical piano strings of length 0.775 m are each tuned exactly to 400 Hz....
Example 18.7 The Mistuned Piano Strings Two identical piano strings of length 0.775 m are each tuned exactly to 400 Hz. The tension in one of the strings is then increased by 1.0%. If they are now struck, what is the beat frequency between the fundamentals of the two strings? SOLVE IT Conceptualize As the tension in one of the strings is changed, its fundamental frequency changes. Therefore, when both strings are played, they will have different frequencies and beats...
Only Part C please. Bonus/Extension: Windblowing B. THE PROBLEM TO SOLVE...! The facts: A car is...
Only Part C please.
Bonus/Extension: Windblowing
B. THE PROBLEM TO SOLVE...! The facts: A car is traveling on a non-windy day. It blares a horn. The car driver hears and MEASURES a frequency of 500 Hz. The car moves away from you at 44 m/s relative to ar. Assume that sound travels at 340 m/s relative to air. a. According to the car's measurements, what is the wavelength of the horn sound? b. You also make measurements. Your equipment happens...
Just solved (Task 2) Just solved (Task 2) Just solved (Task 2) You work as a...
Just solved (Task 2)
Just solved (Task 2)
Just solved (Task 2)
You work as a technical engineer in a company that designs and installs sound systeins, such as speakers for large halls and open spaces. The company manager has assigned you to design a new sound system for a stadiun, and asked you to make a technical report explaining some preliminary studies on the behaviour of sound waves. Task 1: A When we are designing the sound levels to...
Submission should follow the ET190 homework format. Ensure you show all work completety to receive full...
Submission should follow the ET190 homework format. Ensure you show all work completety to receive full credit. Make sure all problems are done in using labels and appropriate units or subscripts. Box your final answer. 1. There are 5 capacitors with the value of 1500 pF. a. What is the total capacitance when they are all in series? -10 3e 1500 1500 1500 b. What is the total capacitance when they are all in parallel? Cr cie C Cs de...
Start the Sound (uses Java) simulation (opens in a new window). Select the Measure" tab at the top left corner of your simulation window. Set the frequency to 200 Hz (once you click on the frequency button you can use the left and right arrow keys on your keyboard to decrease/increase the frequency to the desired value). Also set the amplitude to maximum. The waves are very now well defined. Pause the simulation. There are two blue lines that you...
Please help with question 2,3
and 4 and filling out the table
Lab 12. Sound Waves and Beats Introduction Sound waves consist of a series of air pressure variations. A Microphone diaphragm records these variations by moving in response to the pressure changes. The diaphragm motion is then converted to an electrical signal. Using a Microphone and an interface, you can explore the properties of common sounds. The first property you will measure is the period, or the time for...
10. [15 pts] A 50 m tall tree is located 100 m away from where you are standing. When you put on a pair of glasses, the image of the tree is only 10 m tall and is right-side up. A. Determine the focal length of the lenses in the pair of glasses. Show your work and describe your problem-solving process. f= B. What type of lens is this? For full credit, you must explain your reasoning. O Concave O...
Paisley stands in front of two speakers as shown which emit the same tone, in phase. She is 7.00 m from speaker A and 5.00 m fromB speaker B. a. What are the two lowest frequencies for which she hears: i. a loud sound? [171.5 Hz, 343 Hz] ii. a quiet sound [85.8 Hz, 257 Hz] d-5.00m A-7.00m b. The frequency of the speakers is then changed to 686 Hz Does Paisley hear a loud sound or a quiet sound?...
12. If the velocity of sound in the lab is 344 m/s, what is the wavelength of a 440 Hz sound? What is the period of a 1000 Hz sound? elodinye brsbnsl ws em onoilsup3 the 13. What are the four states of matter? What are the properties of each? Give an (Obseexample of each. s:7 vipo ars 14. Relative to states of matter: What is sublimation? Deposition? sups E ngo nent a. Sublimation noo cle13 b. Depositiona botono ale...
9. 25 pts] A pendulum of mass m suspended from a string of length L has initial displacement and is released from rest. A. Write an equation for the pendulum's angular displacement as a function of time in terms of known variables. Describe how you arrived at your answer B. Sketch a qualitatively accurate graph of the pendulum's translational velocity vs time Label your scale in terms of the given quantities, and label your axes C. You make a second...
Example 18.7 The Mistuned Piano Strings Two identical piano strings of length 0.775 m are each tuned exactly to 400 Hz. The tension in one of the strings is then increased by 1.0%. If they are now struck, what is the beat frequency between the fundamentals of the two strings? SOLVE IT Conceptualize As the tension in one of the strings is changed, its fundamental frequency changes. Therefore, when both strings are played, they will have different frequencies and beats...
Only Part C please.
Bonus/Extension: Windblowing
B. THE PROBLEM TO SOLVE...! The facts: A car is traveling on a non-windy day. It blares a horn. The car driver hears and MEASURES a frequency of 500 Hz. The car moves away from you at 44 m/s relative to ar. Assume that sound travels at 340 m/s relative to air. a. According to the car's measurements, what is the wavelength of the horn sound? b. You also make measurements. Your equipment happens...
Just solved (Task 2)
Just solved (Task 2)
Just solved (Task 2)
You work as a technical engineer in a company that designs and installs sound systeins, such as speakers for large halls and open spaces. The company manager has assigned you to design a new sound system for a stadiun, and asked you to make a technical report explaining some preliminary studies on the behaviour of sound waves. Task 1: A When we are designing the sound levels to...
Submission should follow the ET190 homework format. Ensure you show all work completety to receive full credit. Make sure all problems are done in using labels and appropriate units or subscripts. Box your final answer. 1. There are 5 capacitors with the value of 1500 pF. a. What is the total capacitance when they are all in series? -10 3e 1500 1500 1500 b. What is the total capacitance when they are all in parallel? Cr cie C Cs de...
Most questions answered within 3 hours.
-
Implement C++ program for each of the following.
Let D = [-48, -14, -8, 0, 1,...
asked 19 minutes ago -
Consider a labor market in which LD = 400 – 4W and LS = 250 +...
asked 33 minutes ago -
Let’s say you are teaching a typically-developing young child
how to eat with a spoon. Describe...
asked 17 minutes ago -
Ask Your Teacher A toy gun uses a spring to project a 5.6-g soft
rubber sphere...
asked 29 minutes ago -
*****DO NOT ANSWER THIS QUESTION IF YOU DON'T
KNOW*******
Question - PERSONAL DEVELOPMENT ESSAY and Detailed...
asked 36 minutes ago -
A certain rifle bullet has a mass of 5.25 g. Calculate the de
Broglie wavelength of...
asked 1 hour ago -
Research new software products that assist in project
communication management. Write a paper summarizing your findings,...
asked 59 minutes ago -
the figure below to the left shows a beaker completely filled
with water. then a block...
asked 57 minutes ago -
what is the duistribution channels of HUL in india and how they
distribute?
how is this...
asked 1 hour ago -
Batteries play an important role in our everyday lives. From
making many devices mobile, to allowing...
asked 1 hour ago -
It is possible to iterate through an array quickly and easily
using a loop?
asked 1 hour ago -
Determine the pHpH of an HFHF solution of each of the following
concentrations. The KAKA value...
asked 1 hour ago