energy conversion 1

Phy 201

Your 'energy conversion 1' report has been received. Scroll down through the document to see any comments I might have inserted, and my final comment at the end.

** #$&* Your optional message or comment: **

** #$&* How far and through what angle did the block displace on a single trial, with rubber band tension equal to the weight of two dominoes? **

10cm

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of two dominoes: **

10cm

8cm

8.3cm

9.2cm

10.1cm

** #$&* Rubber band lengths resulting in 5 cm, 10 cm and 15 cm slides: **

3cm

15cm

30cm

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of four dominoes: **

12cm

12.3cm

9cm

10.4cm

11.8cm

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of six dominoes: **

14cm

14.3cm

15.1cm

13.6cm

12.9cm

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of eight dominoes: **

15cm

16.7cm

14.8cm

15.9cm

16.1cm

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of ten dominoes: **

18cm

17.4cm

19.3cm

17.9cm

18.4cm

To this point you have provided reasonable distances, but rotations are apparently not included.

** #$&* Rubber band length, the number of dominoes supported at this length, the mean and the standard deviation of the sliding distance in cm, and the energy associated with the stretch, for each set of 5 trials: **

16, 13.53

11.1, 1.382

13.98, .8167

15.7, .7906

18.2, .7106

There were five quantities requested for each trial. You appear to have included means and standard deviations of sliding distances, but none of the other information.

** #$&* Slope and vertical intercept of straight-line approximation to sliding distance vs. energy, units of slope and vertical intercept, description of the graph and closeness to line, any indication of curvature: **

** #$&* Lengths of first and second rubber band for (first-band) tensions supporting 2, 4, 6, 8 and 10 dominoes: **

** #$&* Mean sliding distance and std dev for each set of 5 trials, using 2 rubber bands in series: **

** #$&* Slope and vertical intercept of straight-line approximation to sliding distance vs. energy, units of slope and vertical intercept, description of the graph and closeness to line, any indication of curvature: **

1-band sliding distance and 2-band sliding distance for each tension:

** #$&* Slope and vertical intercept of straight-line approximation to 2-band sliding distance vs. 1-band sliding distance, units of slope and vertical intercept, description of the graph and closeness to line, any indication of curvature: **

** #$&* Discussion of two hypotheses: 1. The sliding distance is directly proportional to the amount of energy required to stretch the rubber band. 2. If two rubber bands are used the sliding distance is determined by the total amount of energy required to stretch them. **

** #$&* How long did it take you to complete this experiment? **

1 hour

** #$&* Optional additional comments and/or questions: **

It appears that you have usable data, but you haven't included all the results requested. Please see my notes.

Then take a few minutes and copy the appropriate responses into the form for this experiment. There might be questions you don't understand, but include everything you can.

energy conversion 1

Your 'energy conversion 1' report has been received. Scroll down through the document to see any comments I might have inserted, and my final comment at the end.

** #$&* Your optional message or comment: **

** #$&* How far and through what angle did the block displace on a single trial, with rubber band tension equal to the weight of two dominoes? **

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of two dominoes: **

** #$&* Rubber band lengths resulting in 5 cm, 10 cm and 15 cm slides: **

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of four dominoes: **

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of six dominoes: **

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of eight dominoes: **

** #$&* 5 trials, distance in cm then rotation in degrees, with rubber band tension equal to the weight of ten dominoes: **

To this point you have provided reasonable distances, but rotations are apparently not included.

** #$&* Rubber band length, the number of dominoes supported at this length, the mean and the standard deviation of the sliding distance in cm, and the energy associated with the stretch, for each set of 5 trials: **

There were five quantities requested for each trial. You appear to have included means and standard deviations of sliding distances, but none of the other information.

** #$&* Slope and vertical intercept of straight-line approximation to sliding distance vs. energy, units of slope and vertical intercept, description of the graph and closeness to line, any indication of curvature: **

** #$&* Lengths of first and second rubber band for (first-band) tensions supporting 2, 4, 6, 8 and 10 dominoes: **

** #$&* Mean sliding distance and std dev for each set of 5 trials, using 2 rubber bands in series: **

** #$&* Slope and vertical intercept of straight-line approximation to sliding distance vs. energy, units of slope and vertical intercept, description of the graph and closeness to line, any indication of curvature: **

** 1-band sliding distance and 2-band sliding distance for each tension: **

** #$&* Slope and vertical intercept of straight-line approximation to 2-band sliding distance vs. 1-band sliding distance, units of slope and vertical intercept, description of the graph and closeness to line, any indication of curvature: **

** #$&* Discussion of two hypotheses: 1. The sliding distance is directly proportional to the amount of energy required to stretch the rubber band. 2. If two rubber bands are used the sliding distance is determined by the total amount of energy required to stretch them. **

** #$&* How long did it take you to complete this experiment? **

** #$&* Optional additional comments and/or questions: **

It appears that you have usable data, but you haven't included all the results requested. Please see my notes. Then take a few minutes and copy the appropriate responses into the form for this experiment. There might be questions you don't understand, but include everything you can.

1-band sliding distance and 2-band sliding distance for each tension:

It appears that you have usable data, but you haven't included all the results requested. Please see my notes.

Then take a few minutes and copy the appropriate responses into the form for this experiment. There might be questions you don't understand, but include everything you can.