Hello, I badly need help with my biophysics act. please follow the procedures enlisted below and watch this link: https://drive.google.com/file/d/1BXuWJohLH5-qLWixGGXVkPKkhdojAmD8/view?usp=sharing

ers-Lee -.. Co. Biography of Eduar. Co. Roberto del Rosario.. 5) Roberto del Rosario... (@ labeled-muscle-dia. Glucose Tools Add-ons Help Last edit was 2 hours ago ext Calibri 11 +BIU AGOBEEN 3 1 1 1| 1 1 14 1 1 1 1 1 15 1 1 1 1 1 16 1 1 I. Objectives To determine the resultant of two given forces with the use of a) the parallelogram method and b) trigonometric formulas To study and resolve vectors using the force frame II. Theory/Discussion Force has both magnitude and direction, making it a vector quantity. Two or more corces acting concurrently can be combined into a single force. This single force has the same effect as those concurrent forces and is called a resultant. In this activity, the force frame is used to demonstrate several forces acting along different directions. The data gathered from this setup will be subjected to vector resolution, in which the computed values of the vector sum are compared with those taken in the septup The force frame, which is square in shape, consists of a stand and single pulleys from which strings are passed over, with hanging weights attached at opposite end. III. Materials Force frame, protractor, hook pans, string, slotted weights IV Procedure 1. Suspend weights on strings passing over two pulleys as shown in the setup Record the weights, F1, F2 and R. Measure the angles with respect to the vertical axis as indicated Force R is the equilibrant of the two forces F1 and F2, and can be considered as the experimentally derived W C 30'C Mostlyons Help Last edit was 2 hours ago alibri 11 + BIUA , 1 2 13 1 1 1 1 1 1 14 1 1 |1 1 15 1 1 1 1 16 1 1 1 7 Iv procedure 1. Suspend weights on strings passing over two pulleys as shown in the setup Record the weights, F1, F2 and R. Measure the angles with respect to the vertical axis as indicated Force R is the equilibrant of the two forces F1 and F2, and can be considered as the experimentally derived magnitude of the resultant of the two forces. 2. Adopt a convenient scale and resolve the two forces F1 and F2 using the parallelogram method, using the angles which were measured accurately with a protractor. Measure the resultant graphically. 3. Determine the magnitude of the resultant of F1 and F2 analytically using the appropriate trigonometric formulas. 4. Consider the values of the resultant obtained using the parallelogram method and the analytical method as true values and compare these with the resultant (equilibrant)obtained experimentally. @ 30'C Mostly sunnlibri 11 + BIUA 1 1 1 1|1 1 12 3 1 4 15 1 16 1 5. For the second trial, repeat steps 1 to 4 using a different set of weights. All data in the diagrams should be included in the report . Draw neatly. IV. Data and Computations. Experimental Results Trial No. 1 Trial No 2 F1 = F1 = F2 = F2= Angle 1 = Angle 1= Angle 2= Angle 2 = R (E. VI) = R(E.V.)= R(//ogram) = ba R(//ogram)= Amt. of error = Amt. of error = % error = % error = ba R(cos) = R (cos) = Amt of error = Amt. of error = g % error = % error = C 30'C MOS