Are you still able to calculate the % error of the moment inertia? Based on the experimental data in the video, can you calculate the object’s translational acceleration and angular acceleration?

Using Equations 1 through 4, we can derive the following for the measured value of Rotational Inertia:

Procedure:
Watch the videos in the given link.
From Video-1, record the masses and diameters of the cylinder and solid sphere. The diameters of the rings are taken several times since they are relatively flexible objects. Take their average values.
From Video-1, record the length of the inclined plane and the height at two end points to obtain the slope. The heights are measured several times. Take their average value.
From Video-2, for each rolling object, record the travel time from A to B and fill them into the data table. Note that some rolling motions result in the object colliding with the side, or falling off the incline. Do not use that data.

Data:
Mass and Diameters:
NO OBJECT MASS DIAMETER ROTATIONAL INERTIA FROM EQN. 5
UNITS
1 Cylinder-1: Copper
2 Cylinder-2: Aluminum
3 Cylinder-3: Plastic
4 Cylinder-4: Brass
5 Solid Sphere-1: Plastic
6 Solid Sphere-2: Steel
Inner outer
7 Ring-1: Heavy Tape
8 Ring-2: Light Tape

Obtaining the Angle of Incline θ:
Average Height of plank on higher side:
Average Height of table on lower side:
Length of Table: Calculated angle θ:

Obtaining the Descending Height, h :
Distance traveled from A to B:Descending height:

Object Time Rotational Inertia
Rotational Inertia
% error
No Final time Initial time Travel time t Average travel time t
units
Cylinder-1 copper 1
2
3
Cylinder-2
Aluminum 1
2
3
Cylinder-3
Plastic

Cylinder-4
Brass

Solid Sphere-1
Plastic

Solid Sphere-2
Steel

Ring-1
Heavy Tape

Ring-2 Light Tape

Calculations:
Calculate the average travel time for each object.
Input the average travel time into Equation 6, and calculate the object’s moment of inertia.
Use Equation 5 to calculate the object’s moment of inertia.
Compare the resultant values from steps 2 and 3, and calculate the % error.

QuestionS:
Assuming that a person releases both a solid cylinder and solid sphere from rest at location A, which object do you expect will reach location B first?
If this experiment does not give you mass of the rolling object , are you still able to calculate the % error of the moment inertia?
Based on the experimental data in the video, can you calculate the object’s translational acceleration and angular acceleration?