. Elements of acoustical engineering. Electro-acoustics; Sound. FREQUENCY P RESPONSE CHARACTERISTICS Fig. A line shunted by the following: A an inductance. E a capacitance. / an induc- tance and a capacitance in series. M. an inductance and a capacitance in parallel. The mechanical equivalents are shown in B, F, J and A''. The acoustical equivalents are shown in C, G, K and 0. The transmission-frequency characteristics are shown in D, H, L and P. down the pipe the same as it would in the absence of a branch. Since the impedance of an inertance is proportional to the frequency, the volume
. Elements of acoustical engineering. Electro-acoustics; Sound. FREQUENCY P RESPONSE CHARACTERISTICS Fig. A line shunted by the following: A an inductance. E a capacitance. / an induc- tance and a capacitance in series. M. an inductance and a capacitance in parallel. The mechanical equivalents are shown in B, F, J and A''. The acoustical equivalents are shown in C, G, K and 0. The transmission-frequency characteristics are shown in D, H, L and P. down the pipe the same as it would in the absence of a branch. Since the impedance of an inertance is proportional to the frequency, the volume current transmission will increase with frequency as shown by the charac- teristic of Fig. C. Capacitance in Shunt with a Line and the Mechanical and Acoustical Equivalents. — In Fig. \.SK a capacitance is shunted across a line. The reactance of a capacitance is inversely proportional to the Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Olson, Harry Ferdinand, 1901-. New York, D. Van Nostrand company, inc.
Size: 853px × 2930px
Photo credit: © Paul Fearn / Alamy / Afripics
License: Licensed
Model Released: No
Keywords: ., bookcentury1900, bookcollectionameri, bookcollectionbiodiversity
