1 / 9

Making Pretty Pictures

Making Pretty Pictures. Free Body Diagrams and Net Force. Free Body Diagrams. Motionless Equilibrium. VECTOR diagrams! Shows ALL FORCES acting on an object Must be properly labeled. F N. F g. X Y. Net Force. F A. F g. F N. Net Force = 0 *Equilibrium*

tareq
Download Presentation

Making Pretty Pictures

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Making Pretty Pictures Free Body Diagrams and Net Force

  2. Free Body Diagrams Motionless Equilibrium • VECTOR diagrams! • Shows ALL FORCES acting on an object • Must be properly labeled FN Fg

  3. X Y Net Force FA Fg FN • Net Force = 0 *Equilibrium* • Motionless or Constant Velocity • Net Force ≠ 0 • Accelerating or Decelerating Total = FA Total = 0 Total = FA Since this is the only unbalanced force, it is also Fnet Not moving up or down, so… Fg + FN = 0 Fg = -FN FN m Fg frictionless

  4. FN FA Fg Example #1 • A man pushes a 50 kilogram crate across a frictionless surface with a constant force of 100 Newtons. What is the normal force that pushes on the crate? Draw a free-body diagram of the crate. What is the net force on the crate? What is the crate’s acceleration? What is the weight of the crate? Fnet will only be the 100N horizontal force Fg = mg Fg = (50 kg)(9.81 m/s2) Fg = 490.5 N FN = Fg FN = 490.5 N a = Fnet / m a = (100 N) / (50 kg) a = 2 m/s2

  5. FN Ff FA Fg Example #2 • A horse pulls a 500 kilogram sled with a constant force of 3,000 Newtons. The force of friction between the sled and the ground is 500 Newtons. What is the normal force that pushes on the sled? Draw a free-body diagram of the sled. What is the net force on the sled? What is the sled’s acceleration? What is the weight of the sled? Fnet = ΣFx Fnet = 3000 N – 500 N Fnet = 2500 N Fg = mg Fg = (500 kg)(9.81 m/s2) Fg = 4905 N FN = Fg FN = 4905 N a = Fnet / m a = (2500 N) / (500 kg) a = 5 m/s2

  6. X Y FAX FAY Fg FN Total = FAX Total = 0 Pulling on an Angle A block is pushed along a frictionless, horizontal surface with a force of 100 newtons at an angle of 30° above horizontal. This applied force (FA) can be broken into COMPONENTS FN The total vertical force must be 0, so FN = Fg - FAY FA FAY 30˚ FAX Acceleration depends only on FAX Fg

  7. Example #3 • A man pulls a 40 kilogram crate across a smooth, frictionless floor with a force of 20 N that is 45˚ above horizontal. What is the net force on the sled? How could the acceleration be increased? Fnet = FA cos θ Fnet = (20 N)(cos 45°) Fnet = 14.14 N Pushing at a smaller angle will make Fnet greater and therefore increase acceleration. What is the crate’s acceleration? a = Fnet / m a = (14.14 N) / (40 kg) a = 0.35 m/s2

  8. X Y FAX FAY Fg FN Total = FAX Total = 0 Pushing on an Angle A block is pushed along a frictionless, horizontal surface with a force of 100 newtons at an angle of 30° below horizontal. This applied force (FA) can be broken into COMPONENTS FN The total vertical force must be 0, so FN = Fg + FAY FAX FAY -30˚ FA Acceleration depends only on FAX Fg

  9. Example #4 • A girl pushes a 30 kilogram lawnmower with a force of 15 Newtons at an angle of 60˚ below horizontal. Assuming there is no friction, what is the acceleration of the lawnmower? Fnet = FA cos θ Fnet = (15 N)(cos 60°) Fnet = 7.5 N a = Fnet / m a = (7.5 N) / (30 kg) a = 0.25 m/s2 • What could she do to reduce her acceleration? Push at an greater angle

More Related