ed through the bond strength of a material. b. The stress at which disarea activity and/or twinning is assumed to become the leading response upon loading a material. c. A measure of a material"s ability to absorb mechanical power in the develop of stretched bonds.d. A measure of a material"s capacity to deform plastically prior to faientice.e. A measure of a material"s capability to withstand local dedevelopment or wear. f. This worth is associated with the yield point.

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a. A amount that is correlated via the bond toughness of a material. Elastic Modulus

b. The anxiety at which disarea movement and/or twinning is assumed to become the dominant response upon loading a product. Yield Point

c. A measure of a material"s ability to absorb mechanical power in the form of stretched bonds. Ultimate Tensile Strength

d. A meacertain of a material"s ability to dedevelop plastically before faientice. Ductility

e. A meacertain of a material"s capacity to withstand also local dedevelopment or wear. Hardness

This worth is associated via the yield allude.

Explanation:


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. A Carnot warm pump is to be used to warm a home and keep it at 22 °C in winter. When the outdoor temperature remains at 3
max2010maxim <7>

steustatiushistory.org:

The Carnot heat pump need to work 3.624 hours per day to store the temperature constant inside the home.

Explanation:

The net warm daily loss of the home is:

*

*

In order to keep the home warmth, offered warm should be equal to heat losses:

*

Besides, the Coefficient of Performance for a Carnot heat pump is:

*

Where,

*
- Temperature of the cold reservoir (Outdoors), measured in Kelvin.

*
- Temperature of the hot reservoir (House), measured in Kelvin.

Given that

*
and also
*
, the Coreliable of Performance is:

*

*

For a genuine heat machine, the Coreliable of Performance is identified by the following expression:

*

Where:

*
- Heat received by the house, measured in kilojoules.

*
- Work consumed by the Carnot warmth pump, measured in kilojoules.

The daily work consumed is now cleared in the previous expression:

*

*

*

The working time is calculated by separating this result by input power. That is:

*

*

*

The Carnot warmth pump have to work 3.624 hours per day to store the temperature continuous inside the house.


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10 months ago

Which job best fits the function of a planning engineer?
scoray <572>

steustatiushistory.org:

To aid the Project Manager and Project group with data to exectute the venture in time and whitin the spending arrangement allocate.

Explanation:

Hope this work

Have a nice day!


3 0
6 months ago

A Wheatstone bridge initially has resistances equal to R1 = 200Ω, R2 = 400Ω, R3=500Ω and R4=600Ω. For an input voltage of 5V, de
Masja <62>

steustatiushistory.org:

A. Vo = -0.606 volts

B. Vo = -0.349 volts

Explanation:

In this question, we are asked to calculate the output voltage by analyzing the conditions offered and also calculate the output voltage offered that among theses problems readjusted.

Please check attachment for complete solution.


*

7 0
8 months ago
What is 203593^54/38n^7
Snowcat <4.5K>

steustatiushistory.org:

cool

Explanation:


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5 months ago
Give the approximate temperature at which creep dedevelopment becomes a vital consideration for each of the adhering to metals:
IrinaVladis <17>

steustatiushistory.org:

The creep temperature for different materials is as follows.

A. Nickel :-

*
= 690.4 K

B. Copper :-

*
= 542.8 K

C. Iron :-

*
= 723.6 K

D. Tungsten :-

*
= 1469.2 K

E. Lead :-

*
= 240.2 K

F. Aluminium :-

*
= 373.2 K

Explanation:

Creep is the sluggish plastic deformation happen at high elevated temperature.

The approximate temperature for different steels is as adheres to at which creep becomes considerable.

A. Nickel :- The relation in between melting temperature & creep temperature is given by the formula.

*

The melting temperature of nickel = 1726 K

Creep temperature

*
= 0.4 × 1726

*
= 690.4 K

B. Copper :- The relation in between melting temperature & creep temperature for copper is given by the formula.

*

The melting temperature of copper = 1357 K

Creep temperature

*
= 0.4 × 1357

*
= 542.8 K

C.

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Iron :- The relation in between melting temperature & creep temperature for iron is given by the formula

*

The melting temperature of iron = 1809 K

Creep temperature

*
= 0.4 × 1809

*
= 723.6 K

D. Tungsten :- The relation between melting temperature & creep temperature for tungsten is provided by the formula

*

The melting temperature of iron = 3673 K

Creep temperature

*
= 0.4 × 3673

*
= 1469.2 K

E. Lead :-The relation in between melting temperature & creep temperature for lead is offered by the formula

*

The melting temperature of lead = 600.5 K

Creep temperature

*
= 0.4 × 600.5

*
= 240.2 K

F. Aluminium :- The relation between melting temperature & creep temperature for aluminium is given by the formula