We were discussing the basic definition of Buoyancy or buoyancy force, Centre of Buoyancy, Meta-centre and meta-centric height and analytical method to determine the meta-centric height in our previous post.Â
Today we will see here the conditions of equilibrium of submerged bodies with the help of this post.
Today we will see here the conditions of equilibrium of submerged bodies with the help of this post.
Equilibrium of submerged bodies
A
sub-merged or a floating body will said to be in equilibrium, if body will
return back to its original position after giving a slight angular displacement
or slight disturbance.
We
must note it here that in case of completely submerged body, centre of gravity
i.e. G and centre of buoyancy i.e. B will be fixed.
Let
us consider a balloon completely submerged in air as displayed here in
following figure. Let us assume that there will be heavy material of weight W at
the lower portion of the balloon in order to maintain the centre of gravity
below than the centre of buoyancy as displayed in following figure.
Weight
W will act vertically downward through the centre of gravity G and buoyancy
force FB will act vertically upward through the centre of buoyancy
as displayed in above figure.
Let
us analyze the situation now. If W = FB, balloon will be in
equilibrium condition. Let us assume that we are giving an angular displacement
to the balloon in clockwise direction. Weight W and buoyancy force FB
will now form one couple and this couple will tend to move the balloon in
anti-clockwise direction. Hence, this couple will tend to move the balloon to
its original position.
Stable equilibrium
Body
will be considered in stable equilibrium condition, if following criteria will
be fulfilled.
Weight
W which is acting through the centre of gravity (G) should be equal to the buoyancy
force FB which is acting through the centre of buoyancy i.e. W = FB
Centre
of buoyancy i.e. point B must be above the centre of gravity G.
Stable
equilibrium condition of the sub-merged balloon is displayed here in above
figure (a).
Un-stable equilibrium
Body
will be considered in unstable equilibrium condition; if weight W which is
acting through the centre of gravity is equal to the buoyancy force FB,
but centre of buoyancy i.e. point B is below than the centre of gravity G. Unstable
equilibrium condition of the sub-merged balloon is displayed above in figure (b).
Let
us assume that we are giving an angular displacement to the balloon in
clockwise direction. Weight W and buoyancy force FB will now form
one couple which will also act in clock direction. Therefore, balloon will not
return back to its original position and therefore balloon will be in unstable
equilibrium condition.
Neutral equilibrium
Body
will be considered in neutral equilibrium condition, if weight W which is
acting through the centre of gravity is equal to the buoyancy force FB,
but centre of buoyancy i.e. point B and centre of gravity G are at same point.
Neutral
equilibrium condition of the sub-merged balloon is displayed above in figure (c).Â
We will now understand the conditions of equilibrium of floating body.
We will now understand the conditions of equilibrium of floating body.
Do
you have any suggestions? Please write in comment box.
Reference:
Fluid mechanics, By R. K. Bansal
Image
Courtesy: Google
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