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29 November, 22:08

Exercise 15.17: The upper end of a 3.80-m-long steel wire is fastened to the ceiling, and a 54.0-kg object is suspended from the lower end of the wire. You observe that it takes a transverse pulse 0.0492 s to travel from the bottom to the top of the wire. What is the mass of the wire

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  1. 30 November, 01:45
    0
    0.337 kg

    Explanation:

    Given:

    length of wire 'l' = 3.80m

    mass of suspended object 'M' = 54kg

    transverse pulse 't' = 0.0492 s

    mass of wire 'm' = ?

    we can calculate mass from the linear mass density formula i. e

    μ = m/l - --> eq A

    where m = mass and l=length

    but first we have to calculate 'μ' linear mass density

    we can determine the linear mass density μ by using the formula of wave in a string speed

    v = sqrt (F/μ) - --> eq 1

    starting with the formula of wave speed that is

    v = l / t

    where, 'l' is the distance traveled and 't' is time interval

    v = 3.80 / 0.0492 = >77.2 m/s

    next is to apply newton's second law to the hanged mass in order to find force.

    ΣF = F - Fg

    F = Fg = > Mg

    F = 54.0 x 9.8

    F = 529 N

    putting the values of v and F in equation 1 we get;

    77.2 = sqrt (529 / μ) - --> taking square on both sides

    μ = 529 / 5959.84

    μ = 0.089kg/m

    putting the values of μ and L in eq A, we get

    μ = m/l

    0.089 = m / 3.80

    m = 0.089 x 3.80

    m = 0.337 kg

    therefore, the mass of the wire is 0.337 kg
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