Lab 3: Vectors - College Physics I - Lecture Notes | PHYS 2011 | Lab Reports Physics

Physics 2011 Lab 3. Vectors

Purpose: Verify rules for vectors addition using force table.

Apparatus: Force table with pulleys, ring and strings attached, weight hangers, set of weights.

Theory: At equilibrium, according to Newton’s second law, all forces acting on the ring sum up

to zero,

0



, where the tension force on the string is equal to the weight hangs on the string,

gmT





. With the magnitude and direction known,



is complete defined. Rearrange the

equilibrium condition, we obtain









, which can be used to verify the vector addition

rules by comparing the left side computed with vector addition rules to the right side.

Procedure: Variation of tension forces acting on the ring are obtained by changing the weight

applied to the weight hangers and by moving the pulleys to different angles as indicated by the

index marker.

A. Mount a pulley on the 0º mark on the force table and suspend a total of 200 grams on it.

Mount a second pulley on the 90º make and suspend a total of 200 grams on it.

Experimentally find the magnitude and position of a third force required to achieve

equilibrium. At equilibrium, the ring moves to the center of the force table without

touching the table and the center pin. Test the sensitivity of the apparatus by changing

weight over the third pulley without obvious disruption from equilibrium. Record the

maximum deviation. Repeat for 3 times

B. Mount a pulley on the 120º mark on the force table and suspend a total of 100 grams on

it. Mount a second pulley on the 30º make and suspend a total of 100 grams on it. Mount

a third pulley at 90º with 150 grams on it. Experimentally find the magnitude and

position of a fourth force required to achieve equilibrium. At equilibrium, the ring will

moves to the center of the force table without touching the table and the center pin.

Test the sensitivity of the apparatus by changing weight and angle over the fourth pulley

without obvious disruption from equilibrium. Record the maximum deviations for both

the weights and the angles. Repeat 3 times.

Analysis:

1. Use the vector addition and negation rules to calculate the equilibrium force. Compare

the calculated force with the equilibrium force obtained experimentally

2. Give the reasons for the deviations between the calculated values and experimentally

measured ones. Suggest ways to improve the sensitivity of apparatus.

Table I for measurements

Trial T1T2T3T4calculated

Mag. Ang. Mag. Ang. Mag. Ang. Mag. Ang. Mag. Ang.

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Physics 2011 Lab 3. Vectors Purpose: Verify rules for vectors addition using force table. Apparatus: Force table with pulleys, ring and strings attached, weight hangers, set of weights. Theory: At equilibrium, according to Newton’s second law, all forces acting on the ring sum up to zero,  Ti  0  , where the tension force on the string is equal to the weight hangs on the string, T (^) i  mi g 

. With the magnitude and direction known, Ti  is complete defined. Rearrange the equilibrium condition, we obtain n i n T i T

 , which can be used to verify the vector addition rules by comparing the left side computed with vector addition rules to the right side. Procedure: Variation of tension forces acting on the ring are obtained by changing the weight applied to the weight hangers and by moving the pulleys to different angles as indicated by the index marker. A. Mount a pulley on the 0º mark on the force table and suspend a total of 200 grams on it. Mount a second pulley on the 90º make and suspend a total of 200 grams on it. Experimentally find the magnitude and position of a third force required to achieve equilibrium. At equilibrium, the ring moves to the center of the force table without touching the table and the center pin. Test the sensitivity of the apparatus by changing weight over the third pulley without obvious disruption from equilibrium. Record the maximum deviation. Repeat for 3 times B. Mount a pulley on the 120º mark on the force table and suspend a total of 100 grams on it. Mount a second pulley on the 30º make and suspend a total of 100 grams on it. Mount a third pulley at 90º with 150 grams on it. Experimentally find the magnitude and position of a fourth force required to achieve equilibrium. At equilibrium, the ring will moves to the center of the force table without touching the table and the center pin. Test the sensitivity of the apparatus by changing weight and angle over the fourth pulley without obvious disruption from equilibrium. Record the maximum deviations for both the weights and the angles. Repeat 3 times. Analysis:

Use the vector addition and negation rules to calculate the equilibrium force. Compare the calculated force with the equilibrium force obtained experimentally
Give the reasons for the deviations between the calculated values and experimentally measured ones. Suggest ways to improve the sensitivity of apparatus. Table I for measurements Trial T 1 T 2 T 3 T 4 calculated Mag. Ang. Mag. Ang. Mag. Ang. Mag. Ang. Mag. Ang. 1 2 3

Lab 3: Vectors - College Physics I - Lecture Notes | PHYS 2011, Lab Reports of Physics

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