full-scale orchestral music—best test of speakers’ potential?
Here’s a general observation made after visiting many rooms and listening to many loudspeakers at CAF: full-scale orchestral music, i.e. recordings of large symphony orchestras, provide the most demanding test of a speaker’s abilities. I’d argue this for two reasons.
1. Audio systems attempt to create a simulacrum of an acoustic event in your living room. That original event may have occurred in a tiny jazz club or a huge arena, and everything in between. That is to say, the space in which it occurred may be very similar in size to your listening room, or it may be very different. Given the size, on stage, of a full orchestra, and given the size of the auditoriums where they play, it’s very challenging for a system to reproduce the impression of that size in your living room—none are perfect, but some are better than others in providing the right kinds of cues.
2. Another variable here is that the music played may have been acoustic or electronically amplified. Recordings of acoustic instruments and voice remove one extra step in the long chain of reproduction: we know pretty much what a violin should sound like, but what should a certain Gibson guitar through a certain Peavey amp sound like?
Massed violins playing fortissimo are the most stringent test of a speaker’s treble range. In room after room, I heard rock, pop, jazz, blues, folk, etc. etc. reproduced really very beautifully, but often when an orchestral piece came on, it could sound harsh, steely, astringent, nails on chalkboard. The fault of the recording, you say. But a few speakers (I’m not naming names, to avoid that kind of argument), didn’t do that, and sailed through the test.
You are orthogonal to reality.Please provide laboratory test data to support that most CDs are inverted polarity relative to the master tape. None that I checked ever were. And, Mr. Kait, please answer a question that has always bothered me about the green spray you sold to absorb IR in CD players. Energy can’t be destroyed. So what did the green spray change the IR into? Heat? Nope. Heat is IR. Mass? Did the CDs get heavier with every play? |
Well, for one thing I never said CDs were inverted Polarity relative to master tapes. So please don’t put words in my mouth. This sounds like a last ditch effort on your part to win an argument. If you don’t know what I mean then perhaps you should sit this one out. you also wrote, And please answer a question that has always bothered me about the green spray you sold to absorb IR in CD players. Energy can’t be destroyed. So what did the green spray change the IR into? Heat? Nope. Heat is IR. Mass? Did the CDs get heavier with every play? >>>>> Here’s a question for you. How does the green pen around the CD outer edge absorb visible red laser light? Answer that and you might have your answer. The color green of the spray is actually a coincidence and unrelated to the green pen. Since the laser light is primarily infrared, I.e., invisible, the green pen complementary color trick won’t work on the IR part of the laser light, only on the visible red portion. I never said energy can be destroyed. I also never claimed anything regarding the operating principle of the green spray. You did. |
I COULD NOT HAVE SAID IT ANY BETTER— maybe IT WAS ME WHO DID SAY IT??? https://www.thesoundadvocate.com/2018/10/the-need-for-sound-accuracy/ |
I happen to agree with Broockies. I've noticed how musical dynamics, particularly timbre in hifi is never truly reproduced from the actual concert-hall acoustics. Part of this is due to our auditory system response to the sound barriers with an audience, and the rest shared by the recording engineering and replication equipment. When I test drive a new component to upgrade my system, string instruments, especially the cello, seem to provide the best measure. |
