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...

Help with number 6 please, thank youu

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?