Diffraction also occurs with sound waves. Consider 1000-Hz sound waves diffracted by a door that is...
A)Diffraction also occurs with sound waves. Consider 1300 Hz sound waves diffracted by a door that is 85cm wide. What is the angle between the two first-order diffraction minima? B)What width single slit will produce first-order diffraction minima at angles of ±21 ∘ from the central maximum with 690 nm light?
Diffraction also occurs with sound waves. Consider 1800-HzHz sound waves diffracted by a door that is 91 cmcm wide. What is the angle between the two first-order diffraction minima?
For sound waves in air with frequency 1000 Hz a displacement amplitude of produces a pressure amplitude of . Use = 344 . a) What is the wavelength of these waves? b) For 1000-Hz waves in air, what displacement amplitude would be needed for the pressure amplitude to be at the pain threshold, which is 30 Pa? Express your answer using two significant figures. c) For what wavelength will waves with a displacement amplitude of produce a pressure amplitude of...
Diffraction occurs for all types of waves, including sound waves. High-frequency sound from a distant source with wavelength 8.90 cm passes through a narrow slit 11.5 cm wide. A microphone is placed 44.0 cm directly in front of the center of the slit, corresponding to point O.The microphone is then moved in a direction perpendicular to the line from the center of the slit to point O. At what minimal distance from O will the intensity detected by the microphone be...
High-frequency sound waves exhibit less diffraction than low-frequency sound waves do. However, even high frequency sound waves exhibit much more diffraction under normal circumstances than do light waves that pass through the same opening. The highest frequency that a healthy ear can typically hear is 2.0 × 104 Hz. Assume that a sound wave with this frequency travels at 342 m/s and passes through a doorway that has a width of 1.2 m. (a) Determine the angle that locates the...
Diffraction occurs for all types of waves, including sound Waves High frequency sound from a distant source with Wervelength 0.30 cm passes through a narrows 125 cm Wide Amicrophone is placed oem directly in front of the center of the corresponding to point in the figure 36 50 in the textbook. The microphone is then moved in a direction perpendicular to the line from the center of the shit to point Part A At what minimal distance from will the...
on Problem 28.51 A screen is placed 1.60 m behind a single sit. The central maximum in the resulting diffraction pattern on the screen is 1.50 cm wide-that is, the two first- order diffraction minima are separated by 1.50 cm. PartA What is the distance between the two second-order minima? Express your answer to three significant figures. cm Submit
Two loudspeakers emit sound waves along the x-axis. The sound has maximum intensity when the speakers are 15 cm apart. The sound intensity decreases as the distance between the speakers is increased, reaching zero at a separation of 62 cm. What is the wavelength of the sound? Express your answer to two significant figures and include the appropriate units. If the distance between the speakers continues to increase, at what separation will the sound intensity again be a maximum? Express...
Two loudspeakers emit sound waves along the x-axis. The sound has maximum intensity when the speakers are 17 cm apart. The sound intensity decreases as the distance between the speakers is increased, reaching zero at a separation of 70 cm . What is the wavelength of the sound? (Express your answer to two significant figures and include the appropriate units.) (btw its not 106 cm)
please solve c 2. Explain what is meant by diffraction of waves and describe two examples of when wave diffraction is useful. [3 a. b. A loudspeaker is circular in shape with a diameter of 0.15m. Using the principle of diffraction from a circular aperture, calculate the angle at which the first minimum occurs when; i. sound of frequency 3400 Hz is emitted li. sound of frequency 10 KHz is emitted Take the speed of sound in air to be...