tension, F, in the string and the mass per unit length, , of the string. Tension
ID: 1571792 • Letter: T
Question
tension, F, in the string and the mass per unit length, , of the string. Tension has SI units of kgms2and the mass per unit length has SI units of kgm1. What combination of F and must the speed of the wave be proportional to? The speed of a wave pulse on a string depends on the tension, , in the string and the mass per unit length, , of the string. Tension has SI units of and the mass per unit length has SI units of . What combination of and must the speed of the wave be proportional to? Sqrt (F/) Sqrt() F/ /F Sqrt(/F)tension, F, in the string and the mass per unit length, , of the string. Tension has SI units of kgms2and the mass per unit length has SI units of kgm1. What combination of F and must the speed of the wave be proportional to? The speed of a wave pulse on a string depends on the tension, , in the string and the mass per unit length, , of the string. Tension has SI units of and the mass per unit length has SI units of . What combination of and must the speed of the wave be proportional to? Sqrt (F/) Sqrt() F/ /F Sqrt(/F)
tension, F, in the string and the mass per unit length, , of the string. Tension has SI units of kgms2and the mass per unit length has SI units of kgm1. What combination of F and must the speed of the wave be proportional to? The speed of a wave pulse on a string depends on the tension, , in the string and the mass per unit length, , of the string. Tension has SI units of and the mass per unit length has SI units of . What combination of and must the speed of the wave be proportional to? Sqrt (F/) Sqrt() F/ /F Sqrt(/F)
Explanation / Answer
first option Sqrt (F/) is correct.
It is because sqrt ((kg m/s^2)/(kg/m)) = sqrt(m^2/s^2) = m/s
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