Hello, the question is attached. FINAL VELOCITY FROM EXPERIMENTAL DATA (LARGEST VELOCITY)Vexperimental =THEORETICAL VALUE OF FINAL VELOCITY.h = Yfinal - Vinitial =|vf - Vexperimental |VfVf = √2gh =PERCENT DIFFERENCEPercent difference=X 100% = FileFormulas DataReview View HelpAutoSave Off H DeChart 1x ✓BDEFGHI1y(cm)h (m) v (m/s)y (m)7.85 0.078520.030.00K (J)0.00000.0031U (1)0.08500.0817E (J)0.08500.084837.96 0.07960.030.1448.88 0.08880.021.300.2519 0.05470.306558.16 0.08160.031.010.1543 0.07590.230168.78 0.08780.020.870.1144 0.0576 0.172078.57 0.08570.020.300.0131 0.0638 0.076988.73 0.08730.020.230.0076 0.0591 0.066799.4 0.09400.010.93109.55 0.0955110.019.86 0.0986 0.0110.48 0.1048 0.0010.74 0.1074 0.000.1299 0.0394 0.16930.21 0.0067 0.0350 0.04170.43 0.0278 0.0259 0.05370.86 0.1112 0.0076 0.11890.36 0.0196 0.0000 0.01961213141516171819202122232425Conservation of Energy+Home Insert Page LayoutfxxAt (s)0.070290.0780.08510.09220.09930.10640.11350.12070.12780.1350.14220.1494Chart DesignOfinal y (m)mass (kg)FormatK0.10740.3Energy (J)MNOPRQFor your data set, enter the final 'y' value in metersMass just needs to be approximate.OEnergy vs. Time - Jayell Johnson0.35000.30000.2500€ 0.2000--Kinetic Energy-Potential Energy0.1500-Total Energyy = -1.5285x+0.28690.1000-Linear Fit Total Energy0.05000.000000.020.040.060.10.120.140.160.08Time (s)Conservation of EnergyAn object with a known mass m (kg) is dropped from an initial height h (m) from ground level. Paste your data from Module⠀CommentsSLShareT

From the given data, the final velocity of the falling mass will be the velocity corresponding to…

FINAL VELOCITY FROM EXPERIMENTAL DATA (LARGEST VELOCITY) Vexperimental • THEORETICAL VALUE OF FINAL VELOCITY. h = Yfinal - Vinitial = vf = √2gh = PERCENT DIFFERENCE |vf - Vexperimental Percent difference Vf = X 100% =

FINAL VELOCITY FROM EXPERIMENTAL DATA (LARGEST VELOCITY) Vexperimental • THEORETICAL VALUE OF FINAL VELOCITY. h = Yfinal - Vinitial = vf = √2gh = PERCENT DIFFERENCE |vf - Vexperimental Percent difference Vf = X 100% =

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Question

Hello, the question is attached.

FINAL VELOCITY FROM EXPERIMENTAL DATA (LARGEST VELOCITY)
Vexperimental =
THEORETICAL VALUE OF FINAL VELOCITY.
h = Yfinal - Vinitial =
|vf - Vexperimental |
Vf
Vf = √2gh =
PERCENT DIFFERENCE
Percent difference
=
X 100% =

File
Formulas Data
Review View Help
AutoSave Off H De
Chart 1
x ✓
B
D
E
F
G
H
I
1
y(cm)
h (m) v (m/s)
y (m)
7.85 0.0785
2
0.03
0.00
K (J)
0.0000
0.0031
U (1)
0.0850
0.0817
E (J)
0.0850
0.0848
3
7.96 0.0796
0.03
0.14
4
8.88 0.0888
0.02
1.30
0.2519 0.0547
0.3065
5
8.16 0.0816
0.03
1.01
0.1543 0.0759
0.2301
6
8.78 0.0878
0.02
0.87
0.1144 0.0576 0.1720
7
8.57 0.0857
0.02
0.30
0.0131 0.0638 0.0769
8
8.73 0.0873
0.02
0.23
0.0076 0.0591 0.0667
9
9.4 0.0940
0.01
0.93
10
9.55 0.0955
11
0.01
9.86 0.0986 0.01
10.48 0.1048 0.00
10.74 0.1074 0.00
0.1299 0.0394 0.1693
0.21 0.0067 0.0350 0.0417
0.43 0.0278 0.0259 0.0537
0.86 0.1112 0.0076 0.1189
0.36 0.0196 0.0000 0.0196
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Conservation of Energy
+
Home Insert Page Layout
fxx
A
t (s)
0.07029
0.078
0.0851
0.0922
0.0993
0.1064
0.1135
0.1207
0.1278
0.135
0.1422
0.1494
Chart Design
O
final y (m)
mass (kg)
Format
K
0.1074
0.3
Energy (J)
M
N
O
P
R
Q
For your data set, enter the final 'y' value in meters
Mass just needs to be approximate.
O
Energy vs. Time - Jayell Johnson
0.3500
0.3000
0.2500
€ 0.2000
--Kinetic Energy
-Potential Energy
0.1500
-Total Energy
y = -1.5285x+0.2869
0.1000
-Linear Fit Total Energy
0.0500
0.0000
0
0.02
0.04
0.06
0.1
0.12
0.14
0.16
0.08
Time (s)
Conservation of Energy
An object with a known mass m (kg) is dropped from an initial height h (m) from ground level. Paste your data from Module
⠀
Comments
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L
Share
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What is the trend of the best fit line for the total energy E in your data? If the data is accurate, the total mechanical energy should decrease slightly. Why is that?

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