Table 1. Increasing Clench Force Data (Motor unit recruitment)Dominant forearmNon-dominant forearmMean recordeMean recordeMean recordeMean recordeforce (kg) frovoltage (mV) fforce (kg) frovoltage (mV)Ch 40Clench numbeAssigned Ford41Ch 40411Skg9.300.00810.310.00692|10kg18.80.007817.860.0077Brendan1315kg26.50.007524.970.00671420kg33.860.010728.630.0063Skg4.30.024.990.006210kg8.050.059.180.12Diana315kg12.750.0812.340.16420kg16.810.1317.650.24Table 2. Maximum Clench Force Data and Fatigue (segments 2 & 4)Dominant forearmNon-dominant forearmMaximum clenc50% of max cleTime to fatigu Maximum clen 50% of max cleTime to fatiguforce (kg)force (kg)force (kg)force(kg)|Ch 41 Value50% max(sec)|Ch 40 Delta T Ch 41 Value calculate50% max(sec)Ch 40 Delta T|calculateBrendan34.3217.1613.5528.7214.3614.49Diana29.9014.954726.6814.3444 1. Upon completion and recording of all measurements, based on the amount of electricity generated fromeach arm at the same kg force, indicate which forearm & hand recruited more motor units. Subject 1Subject 2Calculate the %Difference in the two arms for each test subject.2. What was the difference (use Table 2 to get this data) in maximal strength/clench force between hands?Subject 1kg Subject 2_3. Indicate which forearm & hand fatigued faster. Subject 1Subject 2Calculate the % Difference

The given clench force data have been used to answer the following questions !.

Table 1. Increasing Clench Force Data (Motor unit recruitment) Dominant forearm Non-dominant forearm Mean recordeMean recordeMean recordeMean recorde force (kg) frovoltage (mV) force (kg) frolvoltage (mV): Ch 40 Clench numbeAssigned Ford41 Ch 40 41 Skg 9.30 0.008 10.31 0.0069 10kg |18.8 0.0078 17.86 0.0077 Brendan 15kg 26.5 0.0075 24.97 0.0067 20kg 33.86 0.0107 28.63 0.0063 1 Skg 4.3 0.02 4.99 0.006 10kg 8.05 0.05 9.18 0.12 Diana 15kg 12.75 0.08 12.34 0.16 20kg |16.81 0.13 17.65 0.24 Table 2. Maximum Clench Force Data and Fatigue (segments 2 & 4) Dominant forearm Non-dominant forearm Maximum clenc50% of max cleTime to fatigu Maximum clen 50% of max cleTime to fatigu force (kg) Ch 41 Value force (kg) 50% max (sec) force (kg) force (kg) 50% max (sec) |calculate |Ch 40 Delta T Ch 41 Value calculate Ch 40 Delta T Brendan 34.32 |17.16 13.55 28.72 14.36 14.49 Diana 29.90 14.95 47 26.68 14.34 44

Table 1. Increasing Clench Force Data (Motor unit recruitment) Dominant forearm Non-dominant forearm Mean recordeMean recordeMean recordeMean recorde force (kg) frovoltage (mV) force (kg) frolvoltage (mV): Ch 40 Clench numbeAssigned Ford41 Ch 40 41 Skg 9.30 0.008 10.31 0.0069 10kg |18.8 0.0078 17.86 0.0077 Brendan 15kg 26.5 0.0075 24.97 0.0067 20kg 33.86 0.0107 28.63 0.0063 1 Skg 4.3 0.02 4.99 0.006 10kg 8.05 0.05 9.18 0.12 Diana 15kg 12.75 0.08 12.34 0.16 20kg |16.81 0.13 17.65 0.24 Table 2. Maximum Clench Force Data and Fatigue (segments 2 & 4) Dominant forearm Non-dominant forearm Maximum clenc50% of max cleTime to fatigu Maximum clen 50% of max cleTime to fatigu force (kg) Ch 41 Value force (kg) 50% max (sec) force (kg) force (kg) 50% max (sec) |calculate |Ch 40 Delta T Ch 41 Value calculate Ch 40 Delta T Brendan 34.32 |17.16 13.55 28.72 14.36 14.49 Diana 29.90 14.95 47 26.68 14.34 44

Related questions

Q: In 2017 Hurricane Irma, a category 5 hurricane had winds up to 180 mph. Hurricanes winds often rip…

Q: A nylon rope used by mountaineers elongates 1.10 m under the weight of an 65.0-kg climber. Review |…

Q: The two blocks in (Figure 1) are connected by a massless rope that passes over a pulley. The pulley…

A: Mass of pully = M = 2.8 kg Diameter of pully = 14 cm Radius of pully = r = 7 cm = 0.07 m Torque by…

Q: 10-20 A 50-cm x 30-cm x 20-cm block weighing 150 N is to be moved at a constant velocity of 0.80 m/s…

A: Given,The weight of the block, The friction coefficient, The vertical forces,

Q: Question 4 Because of Venus' harsh conditions, humans have never been able to succesfully land a…

Q: Convert the following viscosity, µ = 0.001 Pa s a. Into centipoise b. Into kg/m/s c. Into N*s/m^2

A: μ=0.001 Pa.s

Q: Item 16 A child's toy consists of a block that attaches to a table with a suction cup, a spring…

Q: When a glass bottle full of vinegar warms up, both the vinegar and the glass expand, but vinegar…

A: Glass bottle full off vinegar when warms up, both vinegar and glass expand and vinegar expands more…

Q: Course Contents » ... » Homework 3 » HM3-P5-PHYS240.problem Timer Notes Evaluate Feedback Print In A…

Q: Which of the following statement/s is/are correct? 1. The slope of the lift curve can be calculated…

A: Let's analyze each statement:I. The slope of the lift curve can be calculated by dividing the angle…

Q: Kristy Yamaguchi is an olympic gold medalistin figure skating (and dancing with the stars champion)…

Q: Required information A pole-vaulter of mass 60.0 kg vaults to a height of 6.70 m before dropping to…

A: Given,mass of the pole vaulter, m = 60.0 kgheight, h = 6.70 m

Q: What does it mean for an object to be more elastic? O if the object offers more resistance to the…

A: Elastic means property of resisting deformation by stretching When the object returns to it's…

Q: 4-35.Determine the compressive loads in members AB and BC in Figure P4-35. 15" BI 7" 8" 160 lb A…

Q: 2. Calculate the average force exerted on an air-filled balloon when the air expels at a rate of…

Question

Table 1. Increasing Clench Force Data (Motor unit recruitment)
Dominant forearm
Non-dominant forearm
Mean recordeMean recordeMean recordeMean recorde
force (kg) frovoltage (mV) fforce (kg) frovoltage (mV)
Ch 40
Clench numbeAssigned Ford41
Ch 40
41
1
Skg
9.30
0.008
10.31
0.0069
2
|10kg
18.8
0.0078
17.86
0.0077
Brendan
13
15kg
26.5
0.0075
24.97
0.0067
14
20kg
33.86
0.0107
28.63
0.0063
Skg
4.3
0.02
4.99
0.006
2
10kg
8.05
0.05
9.18
0.12
Diana
3
15kg
12.75
0.08
12.34
0.16
4
20kg
16.81
0.13
17.65
0.24
Table 2. Maximum Clench Force Data and Fatigue (segments 2 & 4)
Dominant forearm
Non-dominant forearm
Maximum clenc50% of max cleTime to fatigu Maximum clen 50% of max cleTime to fatigu
force (kg)
force (kg)
force (kg)
force
(kg)
|Ch 41 Value
50% max
(sec)
|Ch 40 Delta T Ch 41 Value calculate
50% max
(sec)
Ch 40 Delta T
|calculate
Brendan
34.32
17.16
13.55
28.72
14.36
14.49
Diana
29.90
14.95
47
26.68
14.34
44

1. Upon completion and recording of all measurements, based on the amount of electricity generated from
each arm at the same kg force, indicate which forearm & hand recruited more motor units. Subject 1
Subject 2
Calculate the %Difference in the two arms for each test subject.
2. What was the difference (use Table 2 to get this data) in maximal strength/clench force between hands?
Subject 1
kg Subject 2_
3. Indicate which forearm & hand fatigued faster. Subject 1
Subject 2
Calculate the % Difference

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 1 images

SEE SOLUTION Check out a sample Q&A here