Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Class Notes
Document related concepts
Modified Newtonian dynamics wikipedia , lookup
Coriolis force wikipedia , lookup
Rolling resistance wikipedia , lookup
Classical mechanics wikipedia , lookup
Fundamental interaction wikipedia , lookup
Rigid body dynamics wikipedia , lookup
Jerk (physics) wikipedia , lookup
Newton's theorem of revolving orbits wikipedia , lookup
Frictional contact mechanics wikipedia , lookup
Fictitious force wikipedia , lookup
Seismometer wikipedia , lookup
Centrifugal force wikipedia , lookup
Classical central-force problem wikipedia , lookup
Newton's laws of motion wikipedia , lookup
Transcript
Type: Double Date: ______________ Objective: Equilibrium Applications, Normal Force and Weight Equilibrium Applications, Friction and Newton’s Laws Homework: Assignment (1-14) Do CONCEPT QUESTIONS #’s (16, 25, 26) Ch. 4 AP Physics “B” Mr. Mirro Date: ________ Equilibrium, Normal Force and Apparent Weight <i> The Normal Force ∑ Fy ⇒ may - F1 - F2 + FN = 0 So, FN = F1 + F2 <ii> Apparent Weight ∑ Fy ⇒ may ∑ Fy = + FN – W = may ∑ Fy = + FN – mg = may FN = mg + may Apparent Weight True Weight FN = m(g + ay) AP Physics “B” Mr. Mirro Date: ________ Equilibrium, Normal Force and Apparent Weight Ex 1: In a circus balancing act, a woman performs a headstand on top of a man’s head. The woman weighs 490 N (≈120 lbs), and the man’s head and neck weigh 50 N. It is primarily the seventh cervical vertebra in the spine that supports all the weight above the shoulders. What is the normal force that this vertebra exerts on the neck and head of the man (a) before the act and (b) during the act ? [Cutnell4.8] Ex 2: A passenger of mass m = 72.2 kg stands on a platform scale in an elevator cab. [Halliday5.12] a. What does the scale read if the cab is at rest or moving with constant speed ? b. What does the scale read if the cab has an upward acceleration of magnitude 3.2 m/s2 ? c. What does the scale read if the cab has an downward acceleration of magnitude 3.2 m/s2 ? d. What does the scale read if the cable breaks, so that the cab falls freely ? e. What would happen if the cab were pulled downward with an acceleration of -12 m/s2 ? 0N 2000 N Ex 3: A 60 kg stunt pilot getting ready for a spectacular trick ascends with a constant acceleration of a = 15 m/s2. [General] a. What is the normal force between the pilot and his seat ? b. What is the g-force on the pilot ? AP Physics “B” Mr. Mirro Date: ________ Equilibrium, Friction and Newton’s Laws I When a stationary object is in contact with a surface, there is a perpendicular force acting on the object called the “normal force.” When the object moves, or attempts to move along the surface, there is also a parallel component of force called the frictional force or simply “friction.” In many situations, considerable engineering effort is expended trying to reduce friction. Oil is used to reduce friction, wear and tear in pistons and cylinder walls in an automobile engine. Sometimes friction is necessary ! Without friction, car tires could not provide the traction needed to move a car or brakes could not stop it ! Surfaces that appear to be highly polished can actually look quite rough at the atomic level. Microscopic bumps impede motion as the electric forces between surfaces actually form chemical bonds or “cold-welds”. Sliding the object across a surface is often jerky due to the making and breaking of these bonds. <i> Static and Kinetic Friction a. Static Frictional Force The magnitude Fs of the static frictional force can have any value from “zero” up to a maximum value of “Fs max,” depending on the applied force. Fs ≤ Fs max FN Where, Fs max = μsFN Where (μs) is the coefficient of static friction and (FN) is the magnitude of the normal force. b. Kinetic Frictional Force The magnitude Fk of the kinetic frictional force is given by: Fk max = μkFN Where (μk) is the coefficient of kinetic friction and (FN) is the magnitude of the normal force. <ii> Friction and the Inclined Plane FN Ff Constant Motion (a = 0) θ θ Fperpindicular FW Sin θ = Fparallel FW Fparallel = FW Sin θ ⇒ Ff Fparallel Cos θ = Fperpindicular FW Fperpendicular = FW Cos θ ⇒ FN AP Physics “B” Mr. Mirro Date: ________ Equilibrium, Friction and Newton’s Laws I Ex 1: A sled is resting on a horizontal patch of snow, and the coefficient of static friction is μs = 0.35. The sled and its rider have a total mass of 38 kg. What is the magnitude of the maximum horizontal force that can be applied to the sled before it just begins to move ? [Cutnell4.9] Ex 2: A skier has just begun descending the 30° slope. Assuming the coefficient of kinetic friction is μk = 0.10: [Giancoli4.17] a. Draw a free-body diagram depicting the situation. b. Determine her acceleration. c. How fast could she be traveling at four seconds. Ex 3: Suppose in the previous example that the snow is slushy and the skier moves down the 30° slope at a constant speed. What could we say about the coefficient of kinetic friction (μk) ? [Giancoli4.18]
