2. What is the percent error in your value of Planck's constant? What are the sources of error?

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Please answer question #2 that has been highlighted with the given information. Please make the answer very detailed for better understanding. Please and thank you. 

Observations (Record your results in the table)
Color of LED
Red
Amber
4.54
5.00
Frequency
(x 10¹4 Hz)
Potential
2.06
Difference
(AV)
1.87
Yellow
5.08
2.10
Green
5.31
2.19
Blue
6.38
2.63
Transcribed Image Text:Observations (Record your results in the table) Color of LED Red Amber 4.54 5.00 Frequency (x 10¹4 Hz) Potential 2.06 Difference (AV) 1.87 Yellow 5.08 2.10 Green 5.31 2.19 Blue 6.38 2.63
1. Plot a labeled graph of potential difference versus frequency. Draw the line of best fit and measure
its slope. Use this slope to determine Planck's constant. Show your work.
(Note: The use of a spreadsheet or other graphing program is recommended.)
To figure out the exact Plank's constant, we utilized the "y" data and then the "x" data from this table
right into google sheets to create a more organized and clear to read graph.
m: 0.412
h=0.412
Potential Difference (V) vs. Frequency (x 10^14 Hz)
Potential Difference (V) - Trendline for Potential Difference (V) R² = 1
0
4.75
5.00
5.25
5.50
5.75
6.00
6.25
Frequency (x 10^14 Hz)
Figure 2: Potential difference (V) vs frequency (× 10¹4 Hz).
2. What is the percent error in your value of Planck's constant? What are the sources of error?
Potential Difference (V)
Transcribed Image Text:1. Plot a labeled graph of potential difference versus frequency. Draw the line of best fit and measure its slope. Use this slope to determine Planck's constant. Show your work. (Note: The use of a spreadsheet or other graphing program is recommended.) To figure out the exact Plank's constant, we utilized the "y" data and then the "x" data from this table right into google sheets to create a more organized and clear to read graph. m: 0.412 h=0.412 Potential Difference (V) vs. Frequency (x 10^14 Hz) Potential Difference (V) - Trendline for Potential Difference (V) R² = 1 0 4.75 5.00 5.25 5.50 5.75 6.00 6.25 Frequency (x 10^14 Hz) Figure 2: Potential difference (V) vs frequency (× 10¹4 Hz). 2. What is the percent error in your value of Planck's constant? What are the sources of error? Potential Difference (V)
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