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Today, 12:28

A tradesman sharpens a knife by pushing it against the rim of a grindstone. The 35 cm diameter stone is spinning at 200 rpm and has a mass of 28 kg. The coefficient of kinetic friction between the knife and the stone is 0.20. If the stone loses 10% of its speed in 10 of grinding, what is the force with which the man presses the knife against the stone?

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  1. Today, 12:50
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    F = 2.57 N.

    Explanation:

    Given dа ta:

    Diameter of the stone: d = 35 c m = 0.35 m

    Radius: r = 35/2 cm = 17.5 cm = 0.175 m

    Initial angular velocity: ω₀ = 200 rpm = (200) (2π/60) rad/s = 20.94 rad/s

    Final angular velocity

    ω f = (1.00-0.10) * (200 rpm) = 180 rpm = (180) (2π/60) rad/s = 18.85 rad/s

    Mass of the stone

    m = 28 K g

    Coefficient of kinetic friction: μ k = 0.2

    Time: t = 10 s

    Part a:

    By using the equation of motion with uniform angular acceleration we will find out the angular acceleration of grindstone:

    ω f = ω₀ + α*t

    ⇒ α = (ω f-ω₀) / t = (18.85 rad/s - 20.94 rad/s) / (10 s) = - 0.21 rad/s²

    A negative sign shows that the wheel is decelerating.

    Part b:

    Consider the rim of grindstone as a solid disk, therefore, the moment of inertia

    I = 0.5*m*r²

    We know that:

    Torque = Force * Perpendicular distance

    τ = (μ k*F) * r (I)

    Also:

    τ = I * α = (0.5*28 Kg * (0.175 m) ²) (0.21 rad/s²) = 0.09 N-m

    Equation (I) becomes,

    τ = (μ k*F) * r ⇒ F = τ / (μ k*r)

    ⇒ F = (0.09 N-m) / (0.20*0.175 m) * = 2.57 N

    So, the tradesman pressing the knife against grindstone by 2.57 N.
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