7 & 8 7. What is the value in m/s of the initial velocity ofa free falling body?32.29.810 18. Based on your experiment no. 1, What is thebest way/preferred method of getting theresultant of three or more vectors?Polygon MethodParallelogram MethodComponent MethodUsing a scale...ActivityChatTeamsAssignments CalendarMore PART I: TWO FORCES1. Solve analytically by using polygon and parallelogram method, the resultant of the followingvectors applying Cosine Law or Sine Law.150 grams due 30° S of E or due S 60° E2. Solve graphically using polygon method the resultant of the same vectors using anyconvenient scale. Solve also for the corresponding equilibrium.3. Using the force table, place the corresponding masses mentioned in procedure 1 in pansattached to strings passing over pulleys (assuming it's frictionless). Put correspondingmasses on a third pan and move this until the system is stable (the ring where the stringis attached will not touch the metal stick at the center of the force table). The masses in thethird pan will be the Equilibrant of the same forces mention in procedure 1. Make sure toinclude the mass of the pan to the suspended weights to add up to the given vectors. Theequilibrant will be the magnitude of the resultant. Also determine the position of the resultant(0).4. With the value of the resultant in analytical solution as accepted value solve for the % errorof solving the resultant for procedure 2 & 3.5. Draw set-up of apparatus and label.DATA AND RESULT:I.Parallelogram MethodR= 177.5 grams, due 50° S of WE= 177.5 grams, due 50° N of EError= 1.29 grams, %Error=0.7215%II.Polygon MethodR= 177.5 grams, due 50° S of WE= 177.5 grams, due 50° N of EError= 1.29 grams, %Error=0.7215%I.Force Table MethodR= 179.42 grams, due 51.14° S of WE= 179.42 grams, due 51.14° N of EError= 0.63 grams, %Error=0.3524%1

Question -7 When the free falling body start in journey it is statiing from rest ( velocity=0) and…

7. What is the value in m/s of the initial velocity of a free falling body? 32.2 9.81 O 1 8. Based on your experiment no. 1, What is the best way/preferred method of getting the resultant of three or more vectors? Polygon Method Parallelogram Method

7. What is the value in m/s of the initial velocity of a free falling body? 32.2 9.81 O 1 8. Based on your experiment no. 1, What is the best way/preferred method of getting the resultant of three or more vectors? Polygon Method Parallelogram Method

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Question

7 & 8

7. What is the value in m/s of the initial velocity of
a free falling body?
32.2
9.81
0 1
8. Based on your experiment no. 1, What is the
best way/preferred method of getting the
resultant of three or more vectors?
Polygon Method
Parallelogram Method
Component Method
Using a scale
...
Activity
Chat
Teams
Assignments Calendar
More

PART I: TWO FORCES
1. Solve analytically by using polygon and parallelogram method, the resultant of the following
vectors applying Cosine Law or Sine Law.
150 grams due 30° S of E or due S 60° E
2. Solve graphically using polygon method the resultant of the same vectors using any
convenient scale. Solve also for the corresponding equilibrium.
3. Using the force table, place the corresponding masses mentioned in procedure 1 in pans
attached to strings passing over pulleys (assuming it's frictionless). Put corresponding
masses on a third pan and move this until the system is stable (the ring where the string
is attached will not touch the metal stick at the center of the force table). The masses in the
third pan will be the Equilibrant of the same forces mention in procedure 1. Make sure to
include the mass of the pan to the suspended weights to add up to the given vectors. The
equilibrant will be the magnitude of the resultant. Also determine the position of the resultant
(0).
4. With the value of the resultant in analytical solution as accepted value solve for the % error
of solving the resultant for procedure 2 & 3.
5. Draw set-up of apparatus and label.
DATA AND RESULT:
I.
Parallelogram Method
R= 177.5 grams, due 50° S of W
E= 177.5 grams, due 50° N of E
Error= 1.29 grams, %Error=0.7215%
II.
Polygon Method
R= 177.5 grams, due 50° S of W
E= 177.5 grams, due 50° N of E
Error= 1.29 grams, %Error=0.7215%
I.
Force Table Method
R= 179.42 grams, due 51.14° S of W
E= 179.42 grams, due 51.14° N of E
Error= 0.63 grams, %Error=0.3524%
1

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