**Find the total mass of a wire with a certain density**

In other words, if the wire is assumed to be cylindrical and of uniform density, then you can talk about the mass per unit length of the wire. In a vastly different context, mass and length are the same when [math]G = c = 1[/math] , which are units often convenient to general relativity.... The speed of a wave in a flexible stretched string depends upon the tension in the string and mass per unit length of the string. (1) Where the tension T in the string equal to Mg.

**Mass of wire using line integral Mathematics Stack Exchange**

Wire and Cable Metric Calculations Dimensions Length mils x 0.0254 = mm (millimeters) inches x 25.4 = mm feet x 0.3048 = m (meters) miles x 1.609344 = km (kilometers)... 30/11/2009 · Suppose that a guitar string has a length of 0.70 m, a mass of 0.19 kg, and a tension of 151 N. (a) What is the mass per unit of length of this string?

**Need help with waves Physics Forums**

From these measurements and the frequency of the wave, the mass per unit length of the string will be determined. The velocity of transverse traveling waves in a stretched string is given by v = Tμ where T is the tension in the string and μ is the mass per unit length of the string. The wavelength of the wave is then λ= v f = 1 f T μ where f is the frequency of the wave. In your apparatus how to get the 3ds qts The mass per unit length of a wire measured by two different methods. The aim of this experiment is to compare the experimental values from two different methods of determining the value the mass (m) per unit length (L) of a wire, where µ= m L. The first method determines a value by direct measures of mass and length. In this case, I measured the mass of the wire as m±∆m=( )0.0026 ±0.0005

**Self Weight of beam per unit length (Timber) YouTube**

The speed of a wave in a flexible stretched string depends upon the tension in the string and mass per unit length of the string. (1) Where the tension T in the string equal to Mg. how to find tax base 9/08/2013 · Find the lowest frequency standing wave that can exist... show more A wire is composed of aluminum with length ℓ1=0.140m and mass per unit length μ1=1.73g/m joined to a steel section with length ℓ2=0.820m and mass per unit length μ2=0.270g/m. This composite wire is fixed at both ends and held at a uniform tension of 136N .

## How long can it take?

### 5. Two identical wires A and B are subject to tension. The

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## How To Find Mass Per Unit Length Of Fishing Wire

Wire and Cable Metric Calculations Dimensions Length mils x 0.0254 = mm (millimeters) inches x 25.4 = mm feet x 0.3048 = m (meters) miles x 1.609344 = km (kilometers)

- Where T is the tension and $\rho$ the mass per unit length. Finally, the fundamental frequency is determined as the reciprocal of the round trip time of the wave along the string: Finally, the fundamental frequency is determined as the reciprocal of the round trip time of the wave along the string:
- The mass-per-unit-of-length is dependend on the string’s diameter and the density (relative weight) of the material used. Its defenition is the cross-section of the string multiplied by its density, in a …
- Phys 197 Homework Solution 15B P22. A piano wire with mass 3.00 g and length 80.0 cm is stretched with a tension of 25.0 N. A wave with frequency 120.0 Hz and amplitude 1.6 mm travels along the wire.
- , where v = T/µ, and µ is the mass per unit length of the wire. We find µ by dividing the total mass of the wire by its length: µ = mass L = volume × density L = ( πd 2 / 4) Lρ L = πd 2 ρ 4 .