How would an atmosphere of hydrogen affect the pitch of an organ pipe compared to a...
A) An organ pipe maker is trying to make an open pipe that has a fundamental frequency of ? . Find and set up the equations necessary to calculate the length of the pipe. B)If the organ pipe maker from the first question made the pipe 10 cm too long, would the corresponding fundamental frequency be too high or too low? Provide an equation that proves your answer and a brief explanation.
A) An organ pipe maker is trying to make an open pipe that has a fundamental frequency of ? . Find and set up the equations necessary to calculate the length of the pipe. B)If the organ pipe maker from the first question made the pipe 10 cm too long, would the corresponding fundamental frequency be too high or too low? Provide an equation that proves your answer and a brief explanation.
An open pipe on an organ creates a fundamental frequency at 10500 Hz. How long is the pipe (speed of sound=343 m/s, unit=m)?
If the membrane of the mitochondria became permeable to hydrogen ions, how would this affect cellular respiration? Explain.
At T= 20 degrees C, how long (in meters) must an open organ pipe be if it is to have a fundamental frequency of 250.0 Hz?
If a human ear canal can be thought of as resembling an organ pipe, closed at one end, that resonates at a fundamental frequency of 2,825 Hz, what is the length of the canal? Use normal body temperature 37
If a human ear canal can be thought of as resembling an organ pipe, closed at one end, that resonates at a fundamental frequency of 2,975 Hz, what is the length of the canal? Use normal body temperature 37°C for your determination of the speed of sound in the canal. cm
How does HIV affect the immune system? which specific cells are affected? Which organ? and how is the brain affected in HIV, liver, skin, GI tract?
Would you expect rising levels of carbon dioxide in the atmosphere to affect C4, C3, or CAM plants differently? Why or why not?
The organ pipe in the figure(Figure 1) is 2.70 m long. You may want to review (Pages 483-485). f = 95.3 Hz Submit Previous Answers Correct Here we learn how to determine the frequency of a standing wave in an organ pipe. Part B Figure < 1 of 1 What is the fundamental frequency of this pipe? ΤΕΙ ΑΣφ fi = Hz Submit Previous Answers Request Answer X Incorrect; Try Again; 4 attempts remaining