Presentation is loading. Please wait.

Presentation is loading. Please wait.

Unbalanced Forces Part #1.

Published byMarilynn Jefferson Modified over 6 years ago

Similar presentations

Presentation on theme: "Unbalanced Forces Part #1."— Presentation transcript:

1 Unbalanced Forces Part #1

2 Horizontal Problems Remember that net force is the sum of all forces acting on an object Several forces may be acting on an object at once Forces are divided into two categories: Applied Forces Resistive Forces

3 Applied and Resistive Forces
Applied Force: External force acting on the object Examples: tension (a.k.a. apparent weight) and gravity Resistive Force: Any forces trying to stop the object from moving Examples: friction and gravity

4 Free Body Diagrams A rough sketch to help analyze a question – these can be useful when determining the types of forces acting on an object

5 Calculating Net Force To calculate net force, the following equation is used DIRECTION IS ALREADY ACCOUNTED FOR IN THE EQUATION!!! Resistive forces ALWAYS act in the opposite direction on applied forces

6 Sample Problem A wooden block at rest on a table top experiences a maximum frictional force of 5.0 N. Describe what will happen to the body when it is pulled with a horizontal force of: a) 1.0 N b) 3.0 N c) 4.9 N d) 5.1 N e) 6.0 N

7 Sample Problem A scuba diver pushes herself through the water with a net force of 19.0 N. If her applied force is 26.0 N, Find the frictional force of the water on her.

8 Sample Problem If the coefficient of static friction between a 40.0 kg box and a horizontal floor is 0.20, what is the maximum horizontal force that could be applied to the box without causing motion?

9 Sample Problem A 2.5 kg block of ice slides at a steady speed across a horizontal wooden floor where the coefficient of friction is Estimate the frictional force on the ice.

10 Homework p. 79 #2, 4, 5, 8-14

11 Vertical Problems

12 On the vertical axis, depending on the problem, resistive force may become applied forces and applied forces may become resistive forces. Consider: An elevator going upwards An elevator going down Vertical Problems

13 Elevators and Scales When an elevator accelerates upwards, the applied force must be greater than the resistive force (or, tension on the cable is greater than the force of gravity)

14 Elevators and Scales When an elevator accelerates downwards, the applied force must be greater than the resistive force (or, the gravitational is greater than the tension on the capable)

15 Summary If you go in an elevator with a scale, you will “weigh” more going up than going down. Meaning your apparent weight is greater when the elevator is travelling in the upwards direction.

16 Sample Problem An elevator with a mass of 9.00x102 kg is accelerating downward at a rate of 1.30 m/s2. What is the tension in the cable? (Fg is the applied force on the elevator, T is the resistive force)

17 Sample Problem A 3.0 kg object is thrown vertically upward with a force of 55 N. What is the acceleration of the object while the force is applied to it?

18 Sample Problem A 75.0 kg student stands on a bathroom scale on an elevator that is accelerating upward at a rate of 1.00m/s2. What is the reading in Newtons on the scale? (the scale reading is the applied force)

19 Sample Problem What will the reading on the above scale be if the elevator accelerates down at 1.00 m/s2?

20 Homework p. 79 #1, 3, 6 & 7

Download ppt "Unbalanced Forces Part #1."

Similar presentations

Forces.

Forces.
Dr. Steve Peterson Steve.peterson@uct.ac.za Physics 1025F Mechanics NEWTON’S LAWS Dr. Steve Peterson Steve.peterson@uct.ac.za.

Dr. Steve Peterson Physics 1025F Mechanics NEWTON’S LAWS Dr. Steve Peterson
Motion and Force Dynamics

Motion and Force Dynamics
A force of 48N acts on a particle on a rough horizontal plane and at an angle of 20° above the horizontal. Given the particle is on the point of slipping,

A force of 48N acts on a particle on a rough horizontal plane and at an angle of 20° above the horizontal. Given the particle is on the point of slipping,
 Friction opposes motion  Friction is dependent on the texture of the surfaces  Friction is dependent on normal force motionfriction.

 Friction opposes motion  Friction is dependent on the texture of the surfaces  Friction is dependent on normal force motionfriction.
Forces and the Laws of MotionSection 4 Click below to watch the Visual Concept. Visual Concept Everyday Forces.

Forces and the Laws of MotionSection 4 Click below to watch the Visual Concept. Visual Concept Everyday Forces.
Constant Force Motion and the Free Body Diagram Teacher Excellence Workshop June 19, 2009.

Constant Force Motion and the Free Body Diagram Teacher Excellence Workshop June 19, 2009.
Newton’s Laws of Motion Problems MC Questions

Newton’s Laws of Motion Problems MC Questions
Aim: How can we calculate static and kinetic friction? A 3.5 kilogram box is being pulled to the right with a force of 15 newtons. The box is moving at.

Aim: How can we calculate static and kinetic friction? A 3.5 kilogram box is being pulled to the right with a force of 15 newtons. The box is moving at.
Friction There are many forms of friction. This lesson introduces the force laws for static friction, kinetic friction, and rolling friction. Students.

Friction There are many forms of friction. This lesson introduces the force laws for static friction, kinetic friction, and rolling friction. Students.
Unit 2 1D Vectors & Newton’s Laws of Motion. A. Vectors and Scalars.

Unit 2 1D Vectors & Newton’s Laws of Motion. A. Vectors and Scalars.
AP Physics B Summer Course 年AP物理B暑假班

AP Physics B Summer Course 年AP物理B暑假班
Newton’s Laws of Motion

Newton’s Laws of Motion
AIM: What are Newton’s three laws, and how do they describe how an object behaves? Do Now: - Draw a Free Body Diagram for the block below if 1. it is at.

AIM: What are Newton’s three laws, and how do they describe how an object behaves? Do Now: - Draw a Free Body Diagram for the block below if 1. it is at.
Chapter 2: Force & Newton’s Laws. What is a balanced force? Forces that are equal in size but opposite direction.

Chapter 2: Force & Newton’s Laws. What is a balanced force? Forces that are equal in size but opposite direction.
What is a Force? A force is a push or a pull causing a change in velocity or causing deformation.

What is a Force? A force is a push or a pull causing a change in velocity or causing deformation.
Forces Newton’s Second Law.

Forces Newton’s Second Law.
Forces and Free Body Diagrams. Common Forces Gravity- attractive force between two objects that have mass. AKA Weight To calculate Weight: –Force of Gravity.

Forces and Free Body Diagrams. Common Forces Gravity- attractive force between two objects that have mass. AKA Weight To calculate Weight: –Force of Gravity.
Newton’s Laws of Motion Sections ) 1,3,4,5,6,8,12)

Newton’s Laws of Motion Sections ) 1,3,4,5,6,8,12)
Lecture 9: Forces & Laws of Motion. Questions of Yesterday You must apply a force F to push your physics book across your desk at a constant velocity.

Lecture 9: Forces & Laws of Motion. Questions of Yesterday You must apply a force F to push your physics book across your desk at a constant velocity.

Similar presentations

Ads by Google