Part II. HANDWRITTEN. Show your complete solutions and computations. Quantities have appropriate units in every step of the solution. Solution is presented in a logical/orderly manner; All working...


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Part II. HANDWRITTEN. Show your complete solutions and computations. Quantities have<br>appropriate units in every step of the solution. Solution is presented in a logical/orderly<br>manner; All working equations are presented and properly written; figures are drawn<br>properly; and all relevant details are shown. Overall presentation is also given credit.<br>1. Given the following measurements (in metric and English respectively) of a metal<br>cylinder: length = 5.640 cm, 2.274 in; diameter= 2.188 cm, 0.878 in. Determine the<br>experimental value of the conversion factor from cubic centimeters to cubic inches.<br>[Use three (3) decimal places].<br>2. Make a sketch of the appropriate scale showing each of the following readings:<br>A. Vernier Caliper: 1.475 in B. Micrometer: 7.78 mm<br>3. Complete a table similar to that in Experiment No.3. Let weight of block equal to 5.60<br>N for the first trial; a mass of 200 g is added in the next trial. Consider the following results:<br>Trial 1- applied force for constant velocity is 1.58 N, coefficient of static friction is 0.57; Trial<br>2- applied force to move object is 4.16 N and 1.97 N to move it at constant velocity. [Use<br>two (2) decimal places].<br>4. Consider a situation similar to that in Experiment 2. Given the following distances<br>traveled (measured from starting point) and times taken: 38.0 cm, 5.9 s; 50 cm, 6.7 s; 85<br>cm, 8.8 s; and,105.0 cm, 9.8 s. a) Complete the table for average velocity. [Use one (1)<br>decimal place]. b) Graph position vs time.<br>5. Consider an Atwood machine similar to that used in the experiment: Each pan has a<br>mass of 65.50 g. The right pan is made 8.00 g heavier than the left pan. It takes the right<br>pan 2.52 s to descend from the top platform to the bottom platform 1.24 m below.<br>Compute the % difference between the true value and experimental values of the<br>acceleration of the pans. The mass of the pulley is 82.20 g. Express the accelerations in<br>m/s?. [Use two (2) decimal places]<br>6. An object with a mass of 85.0 g has a specific gravity of 7.5. a) What is the expected<br>apparent weight when completely submerged in water?<br>subsequently submerged in a liquid specimen, the apparent weight is 0.747 N. What is<br>the specific gravity of the liquid specimen? [Use three (3) decimal places].<br>When the object is<br>7. Experiment No.5:<br>a) Were you able to attain the desired results? In one short sentence, explain why or why<br>not. b) In the second part of the procedure, if a heavier object is to be hung on the<br>beam, should the object be brought closer to or farther from the fulcrum (or vertical<br>support) to balance the beam?<br>

Extracted text: Part II. HANDWRITTEN. Show your complete solutions and computations. Quantities have appropriate units in every step of the solution. Solution is presented in a logical/orderly manner; All working equations are presented and properly written; figures are drawn properly; and all relevant details are shown. Overall presentation is also given credit. 1. Given the following measurements (in metric and English respectively) of a metal cylinder: length = 5.640 cm, 2.274 in; diameter= 2.188 cm, 0.878 in. Determine the experimental value of the conversion factor from cubic centimeters to cubic inches. [Use three (3) decimal places]. 2. Make a sketch of the appropriate scale showing each of the following readings: A. Vernier Caliper: 1.475 in B. Micrometer: 7.78 mm 3. Complete a table similar to that in Experiment No.3. Let weight of block equal to 5.60 N for the first trial; a mass of 200 g is added in the next trial. Consider the following results: Trial 1- applied force for constant velocity is 1.58 N, coefficient of static friction is 0.57; Trial 2- applied force to move object is 4.16 N and 1.97 N to move it at constant velocity. [Use two (2) decimal places]. 4. Consider a situation similar to that in Experiment 2. Given the following distances traveled (measured from starting point) and times taken: 38.0 cm, 5.9 s; 50 cm, 6.7 s; 85 cm, 8.8 s; and,105.0 cm, 9.8 s. a) Complete the table for average velocity. [Use one (1) decimal place]. b) Graph position vs time. 5. Consider an Atwood machine similar to that used in the experiment: Each pan has a mass of 65.50 g. The right pan is made 8.00 g heavier than the left pan. It takes the right pan 2.52 s to descend from the top platform to the bottom platform 1.24 m below. Compute the % difference between the true value and experimental values of the acceleration of the pans. The mass of the pulley is 82.20 g. Express the accelerations in m/s?. [Use two (2) decimal places] 6. An object with a mass of 85.0 g has a specific gravity of 7.5. a) What is the expected apparent weight when completely submerged in water? subsequently submerged in a liquid specimen, the apparent weight is 0.747 N. What is the specific gravity of the liquid specimen? [Use three (3) decimal places]. When the object is 7. Experiment No.5: a) Were you able to attain the desired results? In one short sentence, explain why or why not. b) In the second part of the procedure, if a heavier object is to be hung on the beam, should the object be brought closer to or farther from the fulcrum (or vertical support) to balance the beam?
Jun 11, 2022
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