Lab Report: Temperature and Heat

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The Lab Report and Discussion activities have two components, both of which must be satisfactorily met to be awarded full credit.

  1. The Lab Report must be submitted in the discussion forum utilizing the format below, based on the results of the respective experiment(s).
  2. Responses to and comments on your classmates’ Lab Reports must be made within the module period. Comments/responses will be made on at least two different Lab Reports, utilizing the directions provided.

I had been post the example and format also the lab data please do it like the format

Thanks

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Physics Lab Report Format Name: Title: Hypothesis: Overview: Procedure: See Lab Instructions Data Table: See Lab data sheet(s) Uncertainty & Error: Conclusion/Summary: Application: ______________________________________________________________________ Notes for each heading: Name: Do not expect credit if not included. Title: The experiment name. Do not include the Module number. Again, without this, do not expect credit. Hypothesis: Statement that the experiment is going to test, prove, or disprove. What is the point of the experiment? (Make a statement that the experiment will either prove or disprove.) Overview: Brief summary of what occurred in the experiment or what was tested and how. Procedures: See Experiment Instructions Data Table: See Experiment Data Table Uncertainty & Error: Can you trust your data? Considerations: 1) What factors may have affected or biased the data and introduced uncertainty in the lab measurements? Or, what conditions created uncertainty in your measurements? Which measurements were most affected?” 2) If you were conducting the lab in a physical environment, what other factors would have to be taken into account while accomplishing the procedures? How might they affect the data and/or experiment outcome? Conclusion/Summary: This section must contain each of the items listed below. You are now the one speaking, of your personal results. Although this is merely an example, it does contain all the requisite components. You may write this section how you see fit, as long as the items annotated are included. However, a checklist or bullet list is not acceptable. The clarity and flow of your conclusion/summary should make clear to any ready what you did in the experiment and how it turned out. “In this lab, I (what you did). I did this by (how you did it—brief description of procedures). I found out/learned that (what you learned). Some errors that may have occurred with this lab include (possible errors/flaws—must include at least one). In the future, I would (change, add, delete) (suggest an improvement) to enhance the lab. I loved this lab and think I have the best physics teacher ever!” (Okay, that last line isn’t truly necessary, but it never hurts. ☺) Application: How does this topic—and science in general—impact our understanding of the complex, technological society of which we are a part? How does this explain something in the real world around you? Physics Lab Report Example The following pages contain a sample lab report for an experiment where the water level in a 2-liter soda bottle changes as more and more water is added. It is slightly more brief and less well-developed than your lab reports are expected to be (except in the area of Uncertainty, which is more robust than you may be able to produce), however, it provides a sense of what type of information is expected in each section. Note: This Lab Report example has been edited to follow the Lab Report requirements of the PHYS 102 class. Certain headings and sections were removed (including Method, Materials List, Raw Data table, and Data Analysis) due to the virtual nature of the experiment simulations, and the desire to focus on the experiment results and student conclusions. This experiment example below is designed to correlate the volume of the water contained within the bottle to the height of the water in that bottle. Name: Stuart (Stu) Dent Title: Soda Bottle Experiment Hypothesis: Given that a soda bottle roughly resembles a cylinder, we expect a linear relationship between the height of the water and the amount of water (volume) poured into it. Overview: We measure the height of the water after filling in equal amounts of water. To test for the linear relationship, we will make a best line fit in a Volume-height (V-h) diagram. Procedure: See Lab Instructions Raw Data: See Lab data sheet(s) Uncertainty & Error: Uncertainty: We were able to measure the volume with a precision of ±25mL and the water level with a precision of ±0.5cm. Major Sources of Error: Systematic: • In particular at the lower and upper end of the bottle we have indentions that make the shape of the bottle deviate from a cylindrical shape. This should overall shift the curve upwards. (Can be avoided by only measuring the height gain for the middle part of the bottle.) • Ruler held at an angle. This will result in an over-estimate of h. (Can be avoided by holding ruler perpendicular.) • Residual water in the bottle. This will again shift the entire curve upwards. (Can be avoided by having the bottle carefully dried.) • Bubbles in the water. This will result in an overestimation of the volume. (Effect can be reduced by letting water sit before measurements). Random: • Change in temperature in water (thermal expansion). • Misreading the ruler. Summary: Our expectation of a linear relationship between volume and height seems correct. The measured heights of the water in the bottle as the volume of water increased fell along a straight line in the V-h graph, very well supporting this notion. The fact that the intercept is non-zero (as we would expect) can be accounted for by the indentations at the lower end of the bottle. This error is based on the fact that the bottle is not a true cylinder. Additional errors may have been introduced by incorrect measurement readings or other aspects relating to the temperature of the water or fluctuations in volume. The slope has little physical meaning, except that it is proportional to the average area of the bottle. Future iterations of this experiment might benefit from ensuring the experiment is conducted in a constant temperature environment, the water is room temperature, and the bottle has a flat bottom and is closer to the shape of a true cylinder. I loved this lab and think I have the best physics teacher ever! Application: This experiment shows the connection between volume and height, providing some insight for manufacturers to estimate how much liquid could be held in cylindrical containers, whether they be water bottles or giant beer vats. An alternate view could be that the set height of fluid in a cylindrical container would tell the manufacturer how much liquid is in the container. The use of height sensors could be used as quality control for bottling plants.
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Explanation & Answer

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Surname 1
Name: Student Name
Title: Heat, Temperature, and Thermal Equilibrium
Hypothesis
For part I of the experiment, given that temperature represents the average energy of the
microscopic motions of the particles, we expect that as the temperature increases, the motion of
the particles also increases. For part II of the experiment, given that heat represents the flow of
the kinetic energy of particles, we expect that when two bodies of different temperature are in
contact with each other, heat will be transferred to the object of lower temperature so that they
attain the same temperature after some time.
Overview
For part I of the experiment, we observe the motion of the water particles as temperature
is varied from 0 K to 1000 K. In part II...


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