Answer:
The surface temperature of the bulb is 169.3°C
Explanation:
The heat generated by the electric bulb is transferred by convection and radiation into the surrounding air. In-order to find the surface temperature of the bulb, first evaluate the properties of the surrounding medium and then find the Rayleigh number. From the Rayleigh number, estimate the heat transfer coefficient with the help of Nusselt number. The heat transfer coefficient when substitute in the heat generated equation, gives the final temperature.
Answer:
a) 251.31 m/s and 55.29 m/s
b) The mass flow rate is 0.0396 kg/s
c) The rate of entropy production is 0.0144 kW/K
Explanation:
a) The steady state is:
mi = mo
The energy balance is:
Vi = 0.22 * 251.31 = 55.29 m/s
b) The mass flow rate is:
c) The entropy produced is equal to:
Answer:
Velocity components
For Acceleration components;
Explanation:
We are given:
We first need to find the radial position r of washer in x-y plane.
Therefore
r = 500 mm
To find length along direction OA we have:
Therefore, the radial and vertical components of velocity will be given as:
Where Q is the angle between OA and vector r.
Therefore,
•
•
The radial and vertical components of acceleration will be:
Therefore we have:
•
•
•
Note : image is missing, so I attached it
Answer:
25 - mm
Explanation:
Given data
steel tube : outer diameter = 50-mm
power transmitted = 100 KW
frequency(f) = 34 Hz
shearing stress ≤ 60 MPa
Determine tube thickness
firstly we calculate the ; power, angular velocity and torque of the tube
power = T(torque) * w (angular velocity)
angular velocity ( w ) = 2f = 2 *
* 34 = 213.71
Torque (T) = power / angular velocity = 100000 / 213.71 = 467.92 N.m/s
next we calculate the inner diameter using the relation
= 467.92 / (60 * 10^6) = 7.8 * 10^-6 m^3
also
c2 = (50/2) = 25 mm
=
=
therefore; 0.025^4 - = 0.050 /
(7.8 *10^-6)
= 39.06 * 10 ^-8 - ( 1.59*10^-2 * 7.8*10^-6)
39.06 * 10^-8 - 12.402 * 10^-8 =26.66 *10^-8
=
THE TUBE THICKNESS
= 25 -
mm