Answer:
Navier Stokes equation
( 1 ) it is a partial differential equation that is describe the flow of incompressible fluids
Reynolds equation
(1) it is partial differential equation that governs the pressure distribution of thin viscous fluid in lubrication
Explanation:
Navier Stokes equation
( 1 ) it is a partial differential equation that is describe the flow of incompressible fluids
(2) Navier Stokes equation is used to model weather and ocean current and water flow in the pipe and air flow around wing
( 3) equation is
momentum equation
here is pressure gradient and is body force and is diffusion term
and
Reynolds equation
(1) it is partial differential equation that governs the pressure distribution of thin viscous fluid in lubrication
(2) it is drive in 1886 from Navier Stokes law
(3) equation is attach
here
This is what you call a literation oms of radiation , so the voltage drop is 1.59 O
Answer:
Work done, W = 10195.92 Joules
Explanation:
Given that,
Mass of the crate, m = 170 kg
Distance, d = 10.2 m
The coefficient of friction,
Let W is the work done by the mover. It is given by in terms of coefficient of friction as :
W = 10195.92 Joules
So, the work done by the mover is 10195.92 Joules. Hence, this is the required solution.
Answer:
a.
b.25.2 s
Explanation:
We are given that
Initial velocity=0
Tangential acceleration=
By using
a.t=4 s
Using the formula
Normal acceleration=
Substitute the values
Normal acceleration=
Magnitude of acceleration=a=
Using the formula
Magnitude of acceleration=a
Magnitude of acceleration=a=
b.Magnitude of acceleration=a=
Substitute the values
Hence, the time for the magnitude of the acceleration to be =25.2 s