Engineering Mechanics

(Joyce) #1

(^648) „„„„„ A Textbook of Engineering Mechanics
∴ F=
2
22
Ia Mk a
rr
= ... (Q I = mk^2 ) ...(ii)
and now substituting the value of F in equation (i),
2
sin – 2
Mk a
Mg ma
r
θ=
Mg sin θ=
22
221
Mk a k
Ma Ma
rr
⎛⎞
+=+⎜⎟⎜⎟
⎝⎠
∴ a= 222
22
sin sin
1
gg
krk
rr
θθ






  • The above expression shows that the acceleration of the rolling body is independent of its
    mass. Now substituting the value of (a) in equation (ii),
    F=
    22
    222 22
    2
    Mk gsin Mk gsin
    rrk kr
    r
    θθ
    ×=
    ++
    Now for the body (or wheel) to roll down without slipping, the applied force must be less
    than (or equal to) the available force of friction, in order to fulfil the condition of rolling without
    slipping. Or in other words
    F≤μmg cos θ
    2
    22
    Mk gsin
    kr
    θ




  • ≤μMg cos θ
    tan θ ≤
    22
    2
    kr
    k
    ⎛⎞+
    μ⎜⎟⎜⎟
    ⎝⎠
    The above equation may also be written as :
    μ≥
    22
    2
    tan
    kr
    k
    θ
    ⎛⎞+
    ⎜⎟⎜⎟
    ⎝⎠
    Note: The above expression shows that the value of (μ) should be more or equal to the value
    obtained from the right hand side. Thus for the minimum value of (μ), the above expression may be
    written as :
    μ= 22
    2
    tan
    kr
    k
    θ
    ⎛⎞+
    ⎜⎟⎜⎟
    ⎝⎠
    Example 31.16. A sphere rolls down a plane inclined at 30° to the horizontal. Find the
    minimum value of the coefficient of friction between the sphere and the plane, so that the sphere
    may roll without slipping.
    Solution. Given: Inclination of plane θ = 30°
    We know that for a sphere of radius r,
    k^2 = 0.4 r^2
    and minimum value of coefficient of friction,
    μ= 22 22
    22
    tan tan 30 0.5774
    0.165
    0.4 3.5
    0.4
    kr rr
    kr
    θ°


    ++
    Ans.



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