Physics, asked by Khushigirdhar1365, 1 year ago

Define terminal velocity. Derive an expression for the stokes law using dimentional analysis. Deduce the expression for terminal velocity of a ametallic sphere faling through a viscous liquid

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Answered by liza10987654321
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⏯️⏯️Definition of terminal velocity. : the limiting uniform velocity attained by a falling body when the resistance of the air has become equal to the force of gravity.

⏯️⏯️Stokes law is based on the forces acting upon a spherical particle suspended in liquid, to calculate the viscosity of the liquid using the terminal velocity of the particle.

Let us understand the use of Stokes law to derive the terminal velocity of a body falling through a viscous liquid,under gravity

Weight of the body = mg

= Vρg

W = 4/3 πr3ρg

where r is the radius of the body, r is density, g is the gravity due to upward viscous drag Fv = 6phvr (Stokes law).

where h is coefficient of viscosity, v is the velocity of body, r is radius of the body.

Upthrust or Buoyant force FT = weight of displaced liquid

= Volume of body

x density of liquid x acceleration due to gravity

FT = Vρg

= 4/3 πr3σg

When the body moves with terminal velocity,

that is, V = VT, total upward force = downward force

6πη VT r + 4/3 πr3σg = 4/3 πr3ρg

6πη VT r = = 4/3 πr3 (ρ - σ)g

VT = [2r2(ρ - σ)g]/9η

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