PPT-Lab: Frictionless Car

Beginning Question What is the mathematical and graphical relationship between position velocity and time of a frictionless car as it rolls downhill Observe the motion of the car Lab Frictionless Car. The normal force exerted on the person.. The person's mass times their acceleration.. The person's weight.. None of the choices is the appropriate third law pair.. The force exerted on the scale by the elevator.. freefall. ). Just before hitting the ground, the more massive ball has ______ the kinetic energy of the less massive ball. Neglect air resistance. . ½. The same. Twice. Four times. A skier is on a frictionless slope. If starting from rest, at which point will the skier momentarily rest?. PHY 113 C Fall 2013-- Lecture 8. 1. PHY 113 C General Physics I. 11 AM-12:15 . P. M MWF Olin 101. Plan for Lecture 8:. Chapter 8 -- Conservation of energy. Potential and kinetic energy for conservative forces. h/2. h. 2h. Somewhere between h and 2h. Somewhere between h/2 and h. A block of mass 0.4 kg slides on a horizontal frictionless table toward a spring with a force constant 300 N/m as shown. The block hits the spring at speed 0.6 m/s. How far does the block slide from the time it contacts the spring to the time it stops momentarily?. Beginning Question:. What is the mathematical and graphical relationship between position, velocity, and time of a frictionless car as it rolls downhill? . Observe the motion of the car. Lab: Frictionless Car. , and vf as needed. We can use either energy or angular momentum to determine a relationship for !f. When we use both equations we can eliminate and find !f in terms of d, and v0. The collisi B659: Principles of Intelligent Robot Motion. Spring . 2013. Kris . Hauser. Agenda. Modeling contacts, friction. Form closure, force closure. Equilibrium, support polygons. Contact modeling. Contact is a complex phenomenon involving deformation and molecular forces… simpler abstractions are used to make sense of it. . Final Review. Mechanics . Final Review, . Slide . 1. Final Exam. Wednesday, December 14, 3:30 – 5:. 30 pm. . . Section 001. (Lecture 12:55) HEB . 2008, 2006. . . Section . Energy. Team Members :. Gerrit. Hale. Heather . Boynce. Marion Osborne. Thomas Thurman. “ Hit or Miss”. Design. Simplistic design:. Propeller. Horizontal Axis. Magnet. Copper Wire. Stand. Design/Construction Issues. Robot DESIGN Lesson. Are you New to TECHNIC?. This lesson is . an introductory lesson to common technic pieces. This lessons does not cover every Technic part. It is just an introduction to commonly used parts in MINDSTORMS robots. 1. PHY 113 C General Physics I. 11 AM – 12:15 . P. M MWF Olin 101. Plan for Lecture 10. Chapter . 9 -- Linear momentum. Impulse and momentum. Conservation of linear momentum. Examples – collision . Michael Fowler, UVa . Torque as a Vector. Suppose we have a wheel spinning about a fixed axis: then always points along the axis—so points along the axis too.. If we want to write a vector equation. h/2. h. 2h. Somewhere between h and 2h. Somewhere between h/2 and h. A block of mass 0.4 kg slides on a horizontal frictionless table toward a spring with a force constant 300 N/m as shown. The block hits the spring at speed 0.6 m/s. How far does the block slide from the time it contacts the spring to the time it stops momentarily?.