Derivations of the changes in mechanical energy

Assignment Help Physics
Reference no: EM13836614

1. Since most thermodynamic properties are a function of two or more variables (e.g. the volume of an ideal gas is a function of P, N, and T), you will need to review your multi-variable calculus. Calculate (∂z/∂x)y, (∂z/∂y)x, (∂y/∂x)z, in terms of x, y, z, and any relevant constants for

a) xy = a/z, where a is a constant,

b) z = ax/y - b/y2, where a, and b are constants.

2) Do complete derivations of the changes in mechanical energy below.

A: A water balloon of volume 30 mL (30 x 10-6 m3) is lifted vertically a distance of 1 m in the earth's gravitational field. Calculate the change of potential energy of the balloon. You will need to calculate the mass of the balloon; assume the water is at a temperature of 20oC and a pressure of 1.01 bar (atmospheric pressure), and the mass of the rubber is negligible. Put your answer in SI units; two significant figures are all that is required.  

B: The balloon is dropped now from this height. Calculate the kinetic energy of the balloon the moment before it hits a bucket on the ground by using conservation of energy. Calculate the velocity of the balloon at this same time.

C: The balloon hits the bucket and the kinetic energy of the balloon is transferred to kinetic energy of the water molecules within the (now broken) balloon. This enhanced motion of the molecules shows itself as an increase in temperature. Using a heat capacity for water of 4.2 kJ/kg K, calculate the temperature of the water in the bucket.

D: A gas initially at 1 bar of pressure is compressed by 1 ml (= 1 x 10-6 m3). Assume that the volume of gas is so large that the pressure does not change during this compression. How much energy was inputted into the gas during this compression?

E: What if the pressure changed during the compression? Write down the equation that you would use to calculate the amount of energy required to perform this compression.

F: Using the equation you wrote down in E, you can now perform a similar energy calculation as in part D, but for a finite volume of gas.  Calculate the energy required to *isothermally* compress 100 ml of an ideal gas (a gas that conforms to PV=NRT) to a size of 99 ml. You will have to perform a simple integration.  

3) Mass balance and unit conversions.

Barton Springs pool is a 3 acre pool filled by multiple springs with a cumulative flow of currently 15 cfs (cubic feet per second). The water exits at 70 F at atmospheric pressure, you can assume the density of water is 1000 kg/m3.The water level in the pool is maintained by a manmade dam at the outlet that can raised or lowered. The depth varies throughout the pool due to its natural bottom.

Since it is natural, there can be a buildup of algae on the bottom. Thus every Thursday morning the outlet is lowered by 3 ft and the shallow end is cleaned with a power washer. The pool needs to open again at 7PM Thursday evening. At what time does the outlet need to be raised to its original position (3 ft higher) on Thursday to make sure it is at its regular height for the opening time? You can assume when the pool is filling that no water is exiting the pool.

4) Although some of you are not taking PGE 310, Formation and Solution of Geosystems Engineering Problems (colloquially known as MATLAB), we will still have a small amount of MATLAB in this course. If you are in this group, don't fret, the demands are not large here and I will lead you through.

We will get started with this first assignment. All that is required is for you to run a MATLAB function on your particular name. This will get you used to working in the environment.

On Canvas, there is a folder in the Files section named "matlab routines". I will put matlab routines throughout the semester. For this assignment, there is routine labeled name2num.m . The .m suffix is for a matlab routine; the title is a brief description of what it does, in this case, it converts a name to two numbers. You can open the routine in a text editor, or even better the text editor of matlab to see its guts, it is not very difficult.

OK, finally your assignment. It is very simple. You are to run this function with the input of your first name, and then again run it again with the input of your second name. For me the syntax of running this from the command line is

[first,last] = name2num('David')

And then

[first,last] = name2num('DiCarlo')

MATLAB will output two numbers each time. They are numbers associated with the first and last letter of each name. Just print out the evidence and hand in with the rest of the assignment.

Reference no: EM13836614

Questions Cloud

Describe the name and brief introduction of the company : Describe the name and brief introduction of the company. Perform a SWOTT analysis, placing particular emphasis on long-term trends affecting the company chosen by you
Should mncs adopt the regulations in the country of origin : Should MNCs adopt the regulations in the country of origin or yield to those in the country of operation? Please provide specific examples and a rationale for your response
What are these different types of classifications : What are these different types of classifications? Do they overlap, or do they each tell us something unique about the entity relationship? Why is it important to classify each of these types in an ERD (entity relationship diagram) model
Intelligence report in the left margin : In the left margin of the page there is a section called Get Informed -
Derivations of the changes in mechanical energy : A water balloon of volume 30 mL (30 x 10-6 m3) is lifted vertically a distance of 1 m in the earth's gravitational field. Calculate the change of potential energy of the balloon.
Sally is thinking about two different decisions : Sally is thinking about two different decisions. one decision is quite risky,while the other decision is more conservative. to help her make the right decision, she decides to calculate
What model will you use to estimate the probability : You want to study the probability of a basketball player getting drafted in the NBA. You collect data on their performance in college basketball tournaments. The dependent variable is 1 if the player gets drafted, and 0 otherwise. What would your nul..
What kind of data structure are you dealing with : Supposing you want to see how student perception about civic engagement change in college. You collect data on first year students in 2010, and then collect data from the same students in 2014, their senior year. Does your data have limited dependent..
A tractor and farm equipment manufacturer : For john deere, a tractor and farm equipment manufacturer, spark plugs to be installed in its equipment would be classified on the balance sheet as a.inventory

Reviews

Write a Review

Physics Questions & Answers

  Find the magnitude of the resulting magnetic field

A sphere of radius R is uniformly charged to a total charge of Q. It is made to spin about an axis that passes through its center with an angular speed ω. Find the magnitude of the resulting magnetic field at the center of the sphere.

  Find the equivalent resistance

A resistor is in the shape of a cube, with each side of resistance  R . Find the equivalent resistance between any two of its adjacent corners.

  What is the electric field at the location

Question: Field and force with three charges? What is the electric field at the location of Q1, due to  Q 2 ?

  What is the maximum displacement of the bridge deck

What is the maximum displacement of the bridge deck?

  What is the magnitude of the current in the wire

What is the magnitude of the current in the wire as a function of time?

  Blackbody

Questions on blackbody, Infra-Red Detectors & Optic Lens and Digital Image.

  Gravity conveyor

Illustrate the cause of the components accelerating from rest down the conveyor.

  Calculate the dc voltage

Calculate the dc voltage applied to the circuit.

  Quadrupole moments in the shell model

Quadrupole moments in the shell model

  Determine the tension in each string

Determine the tension in each string

  Introductory mechanics: dynamics

Calculate the smallest coefficient of static friction necessary for mass A to remain stationary.

  Evaluate maximum altitude

Evaluate maximum altitude?

Free Assignment Quote

Assured A++ Grade

Get guaranteed satisfaction & time on delivery in every assignment order you paid with us! We ensure premium quality solution document along with free turntin report!

All rights reserved! Copyrights ©2019-2020 ExpertsMind IT Educational Pvt Ltd