Part I. Use the four diagrams below to answer some questions about torque. Each of...
Please help me figure out if I am doing these right or not and help me figure out what I have not answered yet Part L. Use the four diagrams below to answer some questions about torque. Each of the arrows force of 50 newtons applied to the edge of a wheel. Each wheel can rotate around an axis each wheel is 0.1 located at the center of the wheel and pointing in and out of the page. The radius...
17. [1pt) A wheel of mass m = 1.87 kg and moment of inertia, I = 1.530 kg.m- is supported by a pivot a distance d=0.17 m from the wheel, as shown in the diagram. The axle through the wheel is initially in the horizontal plane, as shown, and the wheel is spinning about the axis in the sense indicated, with an angular velocity o = 90 rad's. Answer the following three questions using the choices given; c.g., if the...
Physics 120 Worksheet 9- Moment of Inertia and Statics Problem 4. Analyzing Torque- You take the wheel from Problem 3 and drill a tiny hole through the center of the x so you carn mount the wheel in an axle. Now you tie three different pieces of string to the wheel and apply the three tension forces of IN to the wheel. Fri is applied to the top of the wheel and points left. Frz is applied to the bottom...
Could you please help with question 18-20 + d - 7 17. [1pt] A wheel of mass m = 1.87 kg and moment of inertia, 1= 1.530 kg.m' is supported by a pivot a distance d=0.17 m from the wheel, as shown in the diagram. The axle through the wheel is initially in the horizontal plane, as shown, and the wheel is spinning about the axis in the sense indicated, with an angular velocity o = 90 rad/s. Answer the...
2. [1pt] Answer True, False, or Cannot tell to each of the four statements below. E.g., if the answer to the first statement is 'true' and to the rest, cannot tell', enter TCCC. a. A wheel turns on a frictionless axle. A string wrapped around the rim of the wheel is connected to a mass. The mass is released at =0 and hits the floor at t=1. The graph shows a possible o - t behaviour for this situation. b....
Please answer all part of question 6 with clear explanations and remarks ! Thank you ! These are the short final answers to question 6 , please explain ! QUESTION 6 The device shown in Figure 5 is to be used as part of an automated parcel sorting system. Small packages slide slowly from left to right down the top ramp, before hitting the fast spinning wheel They leave the fast spinning wheel and continue along the bottom counter. In...
The answer is NOT 20.39 or 0.361. It should be around 7 but I am not sure how to get there 3. 2.5/5 points Previous Answers SerPSE10 8.C.OP.041. My Notes Ask Your Teacher In order for Jane to return to base camp, she needs to swing across a river of width D that is filled with alligators. She must swing into a wind exerting constant horizontal force F, on a vine having length L and initially making an angle with...
I need help with part E please Conceptual Review ree-Body Diagrams and Newton's Laws 3 of4 Problem Solving: Free Body Diagrams and Newton's Laws laws, the following summary of things to do will start your mind thinking about getting involved in the problem at hand 1. Draw a sketch of the situation 2 Consider only one object (at a time), and draw a free-body diagram for that body, showing all the forces acting on that body. Do not show any...
All questions added because it is needed for Question 6 to 11 to be answered (I believe). Answer Question 6 to 11. Please. Thank you Practical 3: Rotation due to an External Moment - Pre-Lab Preparation Rotation due to an External Moment: Pre-lab Preparation In this practical exercise you will investigate the angular acceleration of a disc about its centre of mass due to an applied moment, and determine the moment of inertia of the disc. Write down the equation...
please answer unsolved questions This assignment is set up for sequential assessment Complete each question and submit the answer before moving on to the next question Correct answers for each question will be made available once the maximum number of attempts have been made for each submission length of Ladler -7.om Static Equilibrium - Ladder Comprehensive As shown in the figure, the top of a 7.0 m long ladder (mass 2 -20 kg) leans against a frictionless wall. The bottom...