A metallic sphere of radius 1.0 xx 10^(-...

A metallic sphere of radius `1.0 xx 10^(-3) m` and density `1.0 xx 10^(4) kg//m^(3)` enters a tank of water, after a free fall through a distance of h in the earth's gravitational field. If its velocity remains unchanged after entering water, determine the value of `h`. Given: coefficient of viscosity of water `= 1.0 xx 10^(-3) N s//m^(2), g = 10ms^(-2)` and density of water `= 1.0 xx 10^(3) kg//m^(3)`.

Text Solution

Verified by Experts

The correct Answer is:

`20m`

The velocity attained by the sphere in falling freely from a height `h` is
`v=sqrt(2gh) ……(i)`
This is the terminal velocity of the pshere in water. Hence by Stokes's law, we have
`v=(2)/(9)(r^(2)(rho-sigma)g)/(eta)`
where `r` is the radius of the sphere, `rho` is the density of the amterial of the sphere
`sigma(=1.0xx10^(3)kg//m^(3))` is the density of water and `eta` is coefficient of viscosity of water
`:. v=(2xx(1.0xx10^(-3))^(2)(1.0xx10^(4)-1.0xx10^(3))xx10)/(9xx1.0xx10^(-3))`
`=20m//s`
from equation `(i)`, we ahve
`h=(v^(2))?(2g)=(20xx20)/(2xx10)=20m`

Topper's Solved these Questions

DAILY PRACTICE PROBLEMS
RESONANCE|Exercise dpp 89 illustration|5 Videos
DAILY PRACTICE PROBLEMS
RESONANCE|Exercise dpp 90 Illustration|2 Videos
DAILY PRACTICE PROBLEMS
RESONANCE|Exercise dpp 88|7 Videos
CURRENT ELECTRICITY
RESONANCE|Exercise Exercise|54 Videos
ELASTICITY AND VISCOCITY
RESONANCE|Exercise Advanced Level Problems|9 Videos

Similar Questions

Explore conceptually related problems

Water is flowing in a pipe of radius 1.5 cm with an average velocity 15 cm s^(-1) . What is the nature of flow? Given coefficient of viscosity of water is 10^(-3) kg m^(-1) s^(-1) and its density is 10^(3) kg m^(-3)

Find the terminal velocity of a rain drop of radius 0.01 mm. The coefficient of viscosity of air is 1.8xx10^-5 N-sm^-2 and its density is 1.2kgm^-3 .Density of water =1000kgm^-3 . Take g=10ms^-2

A spherical ball of radius 3.0xx10^(-4) m and density 10^(4)(kg)/(m^(3)) falls freely under gravity through a distance H=nxx500m before entering a tank of water. If after enerting the water the velocity of the ball does not change, then find n. viscosity of water is 10xx10^(-6)(N-s)/(m^(2)) , g=10(m)/(s)

Estimate the speed of verticaly falingn raindriops from the following data. Radius of the drops=0.02cm, viscosity of ir =1.8xx10^-4 poise, g=9.9xx10ms^2 and density of water =1000 kg m^-3 .

A metal ball ofradius 10^(-4) m and density 10^4 kg//m^3 falls freely under gravity through a distance 'h' and enters a tank of water. It is found that after entering the water, the velocity of ball does not change. What is the value of h? [eta "for water "10^(-5)" Pas ",g=10m//s^2" and "orh_("water")=10^3kg//m^3 ]

A spherical ball of radius 3xx10^(-4) m and density 10^(4)kg//m^(3) falls freely under gravity through a distance h before entering a tank of water. If after entering the water the velocity of the ball does not change, find h the viscosity of water is 9.8xx10^(-6)N-s//m^(2)

At a depth of 500m in an ocean (a) what is the absolute pressure? (b) What is the gauge pressure? Density of sea water is 1.03 xx 10^(3) kg//m^(3), g=10ms^(-2) . Atmospheric pressure = 1.01 xx 10^(5)Pa .

A drop of water of radius 0.0015 mm is falling in air .If the cofficient of viscosity of air is 2.0 xx 10^(-5) kg m^(-1)s^(-1) ,the terminal velocity of the drop will be (The density of water = 10^(3) kg m^(-3) and g = 10 m s^(-2) )

RESONANCE-DAILY PRACTICE PROBLEMS-Now answer the following :

A wire elongastes by 1.0 mm when a load W ils hung from it. If this wi...
Text Solution
|
The length of a metal wire is l(1) when the tension in it is T(1) and ...
Text Solution
|
A heavy mass is attached to a thin wire and is whirled in a vertical c...
Text Solution
|
Two wires of equal length and cross sectional area suspended as shown ...
Text Solution
|
A steel wire and a copper wire of equal length and equal cross- sectio...
Text Solution
|
A steel rod of cross sectional area 4cm^2 and length 2m shrinks by 0.1...
Text Solution
|
Consider the situation shown in figure. The force F is equal to the m2...
Text Solution
|
If in a wire of Young's moduls Y, longitudinal strain X is produced th...
Text Solution
|
A metal wire of length L is suspended vertically from a rigid support....
Text Solution
|
A metal wire of length L, area of cross-section A and young's modulus ...
Text Solution
|
Two wires of the same material and length but diameters in the ratio 1...
Text Solution
|
The workdone in increasing the length of a one metre long wire of cro...
Text Solution
|
One end of a long metallic wire of length (L) is tied to the ceiling. ...
Text Solution
|
In the figure shown the straing versus stress graph for two values of...
Text Solution
|
A metal square plate of 10cm side rests on 2mm thick caster oil layer....
Text Solution
|
A man starts rowing his stationary cuboidal boat of base area A=10m^(2...
Text Solution
|
As per the shown figure the central solid cylinder starts with initial...
Text Solution
|
A ball bearing of radius of 3mm made of iron of density 7.85g cm^(-3) ...
Text Solution
|
An air bubble of 1cm radius is rising at a steady rate of 0.5cms^(-1) ...
Text Solution
|
A metallic sphere of radius 1.0 xx 10^(-3) m and density 1.0 xx 10^(4)...
Text Solution
|