string efficiency refers to the efiiciency of the string which is an assembly of two or more number of insulation disc used between the tower and conductor .
it is given by the formula ,
string efficiency = voltage across the string / number of disc in the string * voltage
across the disc nearest the string .
f on the d string, e on the d string, d on the d string, e on the d string, f on the d string x3, e on the d string x3, f on the d string, a on the a string x2, f on the d string, e on the d string, d on the d string, e on the d string, f on the d string x3, e on the d string x2, f on the d string, e on the d string, d on the d string!! there you go!
G string may be a gusset string or the string of the thong may be as thin as a g string from the guitar
The lowest string on a four string double bass is an E string. If you have a fairly rare five string double bass then the lowest fifth string is a B string.
e string, then a string, b string, g string, a string, d string...then repeat.
It depends on the tuning and string, both the thickest and thinnest strings are E without being played. The order of E notes on each string is below. I go in order from the thickest string to the thinnest string, and in standard tuning. 0 for E string 7 for A string 2 for D string 9 for G string 5 for B string 0 for E string
string efficiency= voltage across the string ---------------------------------------- (N*voltage across the most stressed unit) N is the number of units in the string
string efficiency= voltage across the string ---------------------------------------- (N*voltage across the most stressed unit) N is the number of units in the string
string efficiency can not be equal to 100%.. cause...1st of all efficiency of anything cannot be equal to 100%.. Secondly when there is insulators and discs to insulate then there will always be a medium between them.. For which there will be voltage drop... Thirdly there will be a conductor to ground voltage drop... So, string efficiency cannot be equal to 100%
capacitance grading method,static shielding
Required: Two tin cans, a length of string. A small hole is made in the bottom of each can large enough for the string diameter. The string is pushed through the hole in bottom of each can and a large knot tied to prevent it from pulling back through the hole. when the string is kept taught between the cans, it is possible to transmit and receive sounds from one can to the other via the taught string. The string acts as a mechanical sound conductor. Increased efficiency can be achieved by substituting suitable wire for the string. Of course if you want to cheat - just use your I-phone!
Just as you have started it. good examples: 'string' "string" `string` »string« bad examples: 'string" "string` »string'
The collective noun for 'string' is a ball of string.The noun 'string' is a standard collective noun for:a string of ducksa string of horsesa string of mulesa string of pearlsa string of poniesa string of racehorsesa string of violinists
Efficiency effectiveness can only be measured by results; cost efficiency, time efficiency, output efficiency, etc.
it's a String of Pearls
The A string is the second string and the second thickest string.
f on the d string, e on the d string, d on the d string, e on the d string, f on the d string x3, e on the d string x3, f on the d string, a on the a string x2, f on the d string, e on the d string, d on the d string, e on the d string, f on the d string x3, e on the d string x2, f on the d string, e on the d string, d on the d string!! there you go!
Is it's Energy Efficiency.