Due to their solid bodies and electronics, electric violins are heavier than acoustic violins. Electric violins must have a fingerboard, strings, a neck, a bridge, etc (otherwise they couldn’t be played!), but beyond these few constraints, electric violin makers are free to do what they see fit. On the other hand, there are no pre-defined rules for the design of electric violins, thus leaving many elements of the design up to the maker. Acoustic violins always have the same visual appearance. The extra strings are usually a low C for a 5-string electric, a low C and high B for a 6-string, and a low C, high B, and low F for a 7-string.ĭesign. An electric violin can have 4, 5, 6, or even 7 strings! Since electric violins are solid, they have an easier time transmitting lower and higher frequencies, thus expanding their range beyond an acoustic. An acoustic violin has four strings: G D A E. An electric violin cannot clearly be heard by audiences unless it is connected to an amplifier. The sound quality of an electric violin will heavily depend on the type of bridge it has and the quality and number of the sensors. On the other hand, an electric violin transcribes the vibrations of the strings into an electric signal which is then transferred to an amplifier. The bridge passes the vibrations of the strings into the sound box, creating a full, solid sound, easily heard by audiences. An acoustic violin does not need any outside equipment to function. An electric violin is made of a solid structure that needs to be connected to an amplifier in order to be heard.Īmplification. An acoustic violin is made of a hollow structure that amplifies the vibration of the strings.
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