Please answer question 1, 2 and 3 I’m having trouble Calculations – Show 1 sample for each type of calculation. Show ALL your work (5 Steps!)1) Using the hanging mass and the acceleration due to gravity as 9.81m/s², calculate the Force acting on the car.GivenUnknownEquationW=mgSubstitutionSolution2) Using the length of the car's wing and the time at A, calculate the velocity at A.GivenSolutionEquationLength of wingUnknownSubstitutionVA =time at A3) Using the length of the car's wing and the time at B, calculate the velocity at BEquationGivenUnknownSubstitutionSolutionLength of wingVR =time at B4) Using the velocities calculated in 2&3 and the time from A to B, calculate the acceleration of the car.Equation(VB-v4)GivenUnknownSubstitutionSolutiona=Time A to B Mass of the car = _0.3355kgCar Number_17_ Length of car's wing = 0.050mHanging mass(kg)Time at ATime at BTime from A to B(s)(s).0529.0370(s).74220.050.14220.100.1005.51900.150.0828.0311.43240.200.0747.0277.38690.250.0686.0256.35650.300.0647.0243.33710.350.0618.0231.32740.400.0598.0223.31190.450.0593.0217.31120.500.0560.0214.2960

Answered: Image /qna-images/answer/f7ae3af0-6165-4005-a82d-317d1465d180.jpg

Calculations - Show 1 sample for each type of calculation. Show ALL your work (5 Steps!) 1) Using the hanging mass and the acceleration due to gravity as 9.81m/s², calculate the Force acting on the car. Given Unknown Substitution Equation W=mg Solution 2) Using the length of the car's wing and the time at A, calculate the velocity at A. Given Solution Equation Length of wing VA = Unknown Substitution time at A 3) Using the length of the car's wing and the time at B, calculate the velocity at B Given Substitution Solution Equation Length of wing VB = Unknown time at B 4) Using the velocities calculated in 2&3 and the time from A to B, calculate the acceleration of the car. Equation (VB-vA) Unknown Substitution Solution Given a= Time A to B

Calculations - Show 1 sample for each type of calculation. Show ALL your work (5 Steps!) 1) Using the hanging mass and the acceleration due to gravity as 9.81m/s², calculate the Force acting on the car. Given Unknown Substitution Equation W=mg Solution 2) Using the length of the car's wing and the time at A, calculate the velocity at A. Given Solution Equation Length of wing VA = Unknown Substitution time at A 3) Using the length of the car's wing and the time at B, calculate the velocity at B Given Substitution Solution Equation Length of wing VB = Unknown time at B 4) Using the velocities calculated in 2&3 and the time from A to B, calculate the acceleration of the car. Equation (VB-vA) Unknown Substitution Solution Given a= Time A to B

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Question

Please answer question 1, 2 and 3 I’m having trouble

Calculations – Show 1 sample for each type of calculation. Show ALL your work (5 Steps!)
1) Using the hanging mass and the acceleration due to gravity as 9.81m/s², calculate the Force acting on the car.
Given
Unknown
Equation
W=mg
Substitution
Solution
2) Using the length of the car's wing and the time at A, calculate the velocity at A.
Given
Solution
Equation
Length of wing
Unknown
Substitution
VA =
time at A
3) Using the length of the car's wing and the time at B, calculate the velocity at B
Equation
Given
Unknown
Substitution
Solution
Length of wing
VR =
time at B
4) Using the velocities calculated in 2&3 and the time from A to B, calculate the acceleration of the car.
Equation
(VB-v4)
Given
Unknown
Substitution
Solution
a=
Time A to B

Mass of the car = _0.3355kg
Car Number_17_ Length of car's wing = 0.050m
Hanging mass
(kg)
Time at A
Time at B
Time from A to B
(s)
(s)
.0529
.0370
(s)
.7422
0.050
.1422
0.100
.1005
.5190
0.150
.0828
.0311
.4324
0.200
.0747
.0277
.3869
0.250
.0686
.0256
.3565
0.300
.0647
.0243
.3371
0.350
.0618
.0231
.3274
0.400
.0598
.0223
.3119
0.450
.0593
.0217
.3112
0.500
.0560
.0214
.2960

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