BIO WAVES ON VOCAL FOLDS. In the larynx, sound is produced by the vibration of the vocal folds (also called “vocal cords”). The accompanying figure is a cross section of the vocal tract at one instant in time. Air flows upward (in the + z -direction) through the vocal tract, causing a transverse wave to propagate vertically upward along the surface of the vocal folds. In a typical adult male, the thickness of the vocal folds in the direction of airflow is d = 2.0 mm. High-speed photography shows that for a frequency of vibration of f = 125 Hz, the wave along the surface of the vocal folds travels upward at a speed of υ = 375 cm/s. Use t for time, z for displacement in the + z -direction, and λ for wavelength. 15.78 What is the wavelength of the wave that travels on the surface of the vocal folds when they are vibrating at frequency f ? (a) 2.0 mm; (b) 3.3 mm; (c) 0.50 cm; (d) 3.0 cm. 15.79 Which of these is a possible mathematical description of the wave in Problem 15.78? (a) A sin[2 πf ( t + z / υ )]; (b) A sin[2 πf ( t − z / υ )]; (c) A sin(2 πft )cos(2 πz / λ ); (d) A sin(2 πft )sin(2 πz / λ ).
BIO WAVES ON VOCAL FOLDS. In the larynx, sound is produced by the vibration of the vocal folds (also called “vocal cords”). The accompanying figure is a cross section of the vocal tract at one instant in time. Air flows upward (in the + z -direction) through the vocal tract, causing a transverse wave to propagate vertically upward along the surface of the vocal folds. In a typical adult male, the thickness of the vocal folds in the direction of airflow is d = 2.0 mm. High-speed photography shows that for a frequency of vibration of f = 125 Hz, the wave along the surface of the vocal folds travels upward at a speed of υ = 375 cm/s. Use t for time, z for displacement in the + z -direction, and λ for wavelength. 15.78 What is the wavelength of the wave that travels on the surface of the vocal folds when they are vibrating at frequency f ? (a) 2.0 mm; (b) 3.3 mm; (c) 0.50 cm; (d) 3.0 cm. 15.79 Which of these is a possible mathematical description of the wave in Problem 15.78? (a) A sin[2 πf ( t + z / υ )]; (b) A sin[2 πf ( t − z / υ )]; (c) A sin(2 πft )cos(2 πz / λ ); (d) A sin(2 πft )sin(2 πz / λ ).
BIO WAVES ON VOCAL FOLDS. In the larynx, sound is produced by the vibration of the vocal folds (also called “vocal cords”). The accompanying figure is a cross section of the vocal tract at one instant in time. Air flows upward (in the +z-direction) through the vocal tract, causing a transverse wave to propagate vertically upward along the surface of the vocal folds. In a typical adult male, the thickness of the vocal folds in the direction of airflow is d = 2.0 mm. High-speed photography shows that for a frequency of vibration of f = 125 Hz, the wave along the surface of the vocal folds travels upward at a speed of υ = 375 cm/s. Use t for time, z for displacement in the +z-direction, and λ for wavelength.
15.78 What is the wavelength of the wave that travels on the surface of the vocal folds when they are vibrating at frequency f? (a) 2.0 mm; (b) 3.3 mm; (c) 0.50 cm; (d) 3.0 cm.
15.79 Which of these is a possible mathematical description of the wave in Problem 15.78? (a) A sin[2πf(t + z/υ)]; (b) A sin[2πf(t − z/υ)]; (c) A sin(2πft)cos(2πz/λ); (d) A sin(2πft)sin(2πz/λ).
suggest a reason ultrasound cleaning is better than cleaning by hand?
Checkpoint 4
The figure shows four orientations of an electric di-
pole in an external electric field. Rank the orienta-
tions according to (a) the magnitude of the torque
on the dipole and (b) the potential energy of the di-
pole, greatest first.
(1)
(2)
E
(4)
What is integrated science.
What is fractional distillation
What is simple distillation
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