Answer:
constant current
Explanation:
The curve of a constant current machine droops downward rather sharply and for this reason, this type of machine is called a "drooper."
Answer:
Science is what makes up the wires, engineering is how that all works, technology is what the goal is, and math is how many of a component you have to put in it.
Explanation:
I am in an engineering class
Answer: by taking the correct courses and following safety guidelines along with increased awareness
Explanation:
Answer:
Applied Stress > 58.29 MPa
Explanation:
- Resolved shear stress should be greater than critically resolved shear stress in order to cause the single crystal to yield
Given angles are
∅ = 42.7 degree
Ф = 48.3 degree
Critically resolved shear stress = 28.5 MPa
If we consider
Critically resolved shear stress = resolved shear stress
Applied stress can be found by
(1)
Applied Stress =
Applied Stress =
Applied Stress = 58.29 MPa
We got reference
- By putting applied stress values of greater than 58.29 MPa in equation 1 we get
Resolved Shear Stress = 60 x Cos(48.3) x Cos(42.7)
Resolved Shear Stress = 29.33 MPa
Therefore, by the above calculation we conclude that applied stress should be greater than 58.29 MPa, In order to make resolved shear stress to be greater than critically resolved shear stress that is essential for single crystal to yield.
Answer:
mass flow rate = 0.0534 kg/sec
velocity at exit = 29.34 m/sec
Explanation:
From the information given:
Inlet:
Temperature
Quality
Outlet:
Temperature
Quality
The following data were obtained at saturation properties of R134a at the temperature of -16° C