HERE IS THE LINK TO THE FIGURE YOU NEED httptinypiccomrhwk42

HERE IS THE LINK TO THE FIGURE YOU NEED: http://tinypic.com/r/hwk42f/9

1. Qualitative Considerations

(a)Four different events make the transitions in a single engine cycle happen. Using Insert>Shapes in Word, draw a line between each transition and the event that causes it. Note: These transition points are marked in Figure 2 (link above).

(b) Transition Cause agb • Mass is removed from the platform bgc • Chamber is moved to the hot reservoir cgd • Chamber is moved to the cold reservoir dga • Mass is placed on the platform

(c)Which type of transition (isothermal, isobaric, adiabatic or isovolumetric) describes what happens when the 200 g mass is placed on the platform so that it sinks quickly by a small amount? Explain. Hint: This process occurs in a small fraction of a second, while the air, the system’s working medium, is compressed reducing its volume and raising its temperature.

[Type answer here]

(d)Which type of transition (isothermal, isobaric, adiabatic, or isovolumetric) describes what happens when the canister is moved from the cold water bath to the hot water bath. Explain.

[Type answer here]

(e)Which type of transition (isothermal, isobaric, adiabatic, or isovolumetric) describes what happens when the 200 g mass is removed from the platform so it rises very fast? Explain. Hint: This process is very rapid and occurs in a small fraction of a second.

[Type answer here]

(f)Which type of transition (isothermal, isobaric, adiabatic, or isovolumetric) describes what happens when the canister is moved from the hot water to the cold water. Explain.

[Type answer here]

(g)For the purposes of calculating the distance through which the mass is raised after it is placed on the platform, underline and make bold, the distance, h, shown below that best represents the height through which the added 200 g mass is lifted. Explain how you arrived at your answer and show your calculation. Hint: You’ll need to use the Logger Pro Examine tool in the Analyze menu and some reasoning.

h1 = 0.033m ± 0.001m h2 = 0.039m ± 0.001m h3 = 0.044m ± 0.001m

[Type answer here]

Thanks!!!

Solution

AnsC) Fraction of second so adiabatic process

Ans D) Isovolumetric.This is because the volume of the canister remains Constant only temperature and pressure changes.

Ans E) Isovolumetric as volume remains constant

Ans F) There is loss of energy when the canister is moved from the hot water to the cold water
hence the transition is obviously isovolumetric since volume doesnt change

Dear, you please ask the other questions in another one as according to our guidelines i have answered 3 -4 questions