9/11/13 1 Tension, Continuous Systems and Differential Equations 8.01 W03D1 Today’s Readings: Chapter 8 Applications of Newton’s Second Law, Sections 8.4: Examples 8.3-4. Section 8.4.2, Section 8.5 Announcements Exam 1: Thursday Sept 19 7:30 pm - 9:30 pm. See Announcements webpage for room assignments Conflict Exam 1: Friday Sept 20 8-10 am, 10-12 noon. See Announcements webpage for room assignments You must email [email protected] your reason for requesting to take the conflict exam. The only acceptable conflict is if you have an official MIT class scheduled during the exam time. Problem Set 2 (Exam 1 Review Problems) Due Week 03 Tuesday at 9 pm in section boxes outside 26-152 Math Review Week 03 Tuesday at 9 pm in 26-152 Tension in a Rope The tension in a rope at a distance x from one end of the rope is the magnitude of the action-reaction pair of forces acting at that point , left,right right,left( ) ( ) ( )T x x x= =F F 9/11/13 2 Concept Q.: Constraints and Pulleys A massless rope is attached to the ceiling at one end and held stationary with tension T at the other end. Through a system of frictionless pulleys it supports a body of mass m. What is the value of m? 1. 2. 3. 4. 5. 4T / g4T sinθ/ g(2 + 2)T / g(2 + 2)T sinθ/ g5T / gWhy you need to know physics Table Problem: Painter on Platform A painter pulls on each rope with a constant force F. The painter has mass m1 and the platform has mass m2. a. Draw free body force diagrams for the platform and painter. b. Find the acceleration of the platform.9/11/13 3 Table Problem: Tension in a Rope Suppose a rope of mass m hangs between two trees. The ends of the rope are at the same height and they make an angle with the trees. a) What is the tension at the ends of the rope where it is connected to the trees? b) What is the tension in the rope at a point midway between the trees? Be sure you show any free body force diagrams or sketches that you plan to use. θTable Problem: Tension in a Suspended Rope Suppose a uniform rope of mass M and length L is suspended from a ceiling. The magnitude of the acceleration due to gravity is g. a) Find the tension in the rope at the upper end where the rope is fixed to the ceiling. b) Find the tension in the rope as a function of the distance from the ceiling. c) Find an equation for the rate of change of the tension with respect to distance from the ceiling in terms of M, L, and g. Mini-Experiment: Wrapping Friction9/11/13 4 Worked Example: Capstan In the capstan, show that when the rope is just slipping and the load on the rope pulls it with a force TA, then the sailor holds it with a much smaller force TB given by where µs is the coefficient of static friction and is the total angle subtended by the rope on the drum. TB= TAe−µsθBA θBAReview Friday Group Problems Group Problem: Blocks and Pulleys on Table Two blocks rest on a frictionless horizontal surface. They are connected by 3 massless strings and 2 frictionless, massless pulleys as shown above. A force F is applied to block 1. What is the resulting acceleration of block 1?9/11/13 5 Things to do for W03D2 Prepare for Exam 1: 7:30-9:30 pm See Announcements webpage for room assignments Topics: Vectors 1 & 2 Dimensional Kinematics Force and Newton’s Second Law 13 Reading Assignment: W04D1 Chapter 6 Circular Motion, Sections
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