pls. see the attached photo, please help me huhu A. By default, the positions are on x1 = - 1.00m and x2 = +1.00m. Adjust the elasticity to 100%.Then set the values of mass and velocity based on the given on the table below. Complete thetable by writing the values for the final velocities and final momentum.FinalVelocitiesMassInitialInitialTotalFinalTotal(kg)VelocitiesMomentumInitialMomentumFinalTrials(m/s)(kg-m/s)Momentum(m/s)(kg m/s)Momentum(kg m/s)(kg m/s)mi= 0.50Vi= 1.25pi=Vi =pi =Trial 1p=p=m= 1.00V2= -1.00p2=V2 =P2 =Vi =vz=pi =p2 =mi= 1.35Vi= 0.80pi=Trial 2p=p=m2= 0.90V2= -1.60p2= By default, the positions are on x1 = - 1.00m and x2=+1.00m.. Adjust the elasticity to 0%. Thenset the values of mass and velocity based on the given on the table below. Complete the table bywriting the values for the final velocities and final momentum.MassInitialInitialTotalFinalFinalTotalTrials(kg)VelocitiesMomentumInitialVelocitiesMomentumFinal(m/s)(kg m/s)Momentum(m/s)(kg-m/s)Momentum(kg-m/s)(kg-m/s)Trial 1mi= 0.50Vi= 1.25pi=Vị =Pi =m2= 1.00V2= -1.00p=p=p2=V2p2 =mi= 1.35Vi= 0.80VI =V2 =Pi=Pi =p2 =Trial 2m2= 0.90V2= -1.60p=p3=p2=

As given that Position 1 is X1 =-1.0 m and position 2 is X2=1.0 m . From this, we assume that the…

A. By default, the positions are on x1 1.00m and x2 +1.00m. Adjust the elasticity to 100%. Then set the values of mass and velocity based on the given on the table below. Complete the table by writing the values for the final velocities and final momentum. Mass (kg) Initial Velocities Momentum (kg m/s) Initial Total Initial Final Velocities Momentum (m/s) Final Total Final Trials (m/s) Momentum (kg-m/s) Momentum (kg-m/s) (kg m/s) Trial 1 mi= 0.50 Vi= 1.25 pi= vi= pi p= p= my= 1.00 V= -1.00 V2= p2 mi= 1.35 Vi= 0.80 pi= Vi= Trial 2 p= p= m2= 0.90 V2= -1.60 V2= p2 =

A. By default, the positions are on x1 1.00m and x2 +1.00m. Adjust the elasticity to 100%. Then set the values of mass and velocity based on the given on the table below. Complete the table by writing the values for the final velocities and final momentum. Mass (kg) Initial Velocities Momentum (kg m/s) Initial Total Initial Final Velocities Momentum (m/s) Final Total Final Trials (m/s) Momentum (kg-m/s) Momentum (kg-m/s) (kg m/s) Trial 1 mi= 0.50 Vi= 1.25 pi= vi= pi p= p= my= 1.00 V= -1.00 V2= p2 mi= 1.35 Vi= 0.80 pi= Vi= Trial 2 p= p= m2= 0.90 V2= -1.60 V2= p2 =

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Chapter5: Analysis Of Convection Heat Transfer

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Problem 5.5P: Evaluate the dimensionless groups hcD/k,UD/, and cp/k for water, n-butyl alcohol, mercury, hydrogen,...

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Fluid Kinematics

The branch of science that deals with objects which are either in motion or stationary are studied under the branch of classical mechanics. Fluid mechanics is a subcategory of classical mechanics that deals with the behavior of fluids at rest (fluid statics) or in motion (posing some velocity). In fluid kinematics, studies focus on the associated motion of fluid particles or groups of particles, and its associated parameters like displacements, velocity, and acceleration without concerning about the forces that caused the motion. All the laws of classical mechanics are applied in the study of fluid kinematics.

Question

pls. see the attached photo, please help me huhu

A. By default, the positions are on x1 = - 1.00m and x2 = +1.00m. Adjust the elasticity to 100%.
Then set the values of mass and velocity based on the given on the table below. Complete the
table by writing the values for the final velocities and final momentum.
Final
Velocities
Mass
Initial
Initial
Total
Final
Total
(kg)
Velocities
Momentum
Initial
Momentum
Final
Trials
(m/s)
(kg-m/s)
Momentum
(m/s)
(kg m/s)
Momentum
(kg m/s)
(kg m/s)
mi= 0.50
Vi= 1.25
pi=
Vi =
pi =
Trial 1
p=
p=
m= 1.00
V2= -1.00
p2=
V2 =
P2 =
Vi =
vz=
pi =
p2 =
mi= 1.35
Vi= 0.80
pi=
Trial 2
p=
p=
m2= 0.90
V2= -1.60
p2=

By default, the positions are on x1 = - 1.00m and x2=+1.00m.. Adjust the elasticity to 0%. Then
set the values of mass and velocity based on the given on the table below. Complete the table by
writing the values for the final velocities and final momentum.
Mass
Initial
Initial
Total
Final
Final
Total
Trials
(kg)
Velocities
Momentum
Initial
Velocities
Momentum
Final
(m/s)
(kg m/s)
Momentum
(m/s)
(kg-m/s)
Momentum
(kg-m/s)
(kg-m/s)
Trial 1
mi= 0.50
Vi= 1.25
pi=
Vị =
Pi =
m2= 1.00
V2= -1.00
p=
p=
p2=
V2
p2 =
mi= 1.35
Vi= 0.80
VI =
V2 =
Pi=
Pi =
p2 =
Trial 2
m2= 0.90
V2= -1.60
p=
p3=
p2=

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