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Laws of Motion Chapter Two
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What is force? Force A push or pull on an object.
Can always be applied to another person or object through either touch or no touch SI Unit for force is newton (N) Two types of force: Contact force Non-contact force
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What is Force? Contact force Non-contact force
The push or pull of one object by another that is touching it Can be either weak or strong Weak Example: pressing keys on a keyboard Strong Example: Tectonic plates Force that one object can apply to another object without touching it Examples: Magnetic force Gravity Static electricity
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What is Force? Forces have Both
Strength Direction Represented by arrows Length of the arrow shows how much strength is being applied to an object Different things can happen when applying force from different directions
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What is gravity? An attractive force that exists between all objects that have mass Mass The amount of matter in an object Measured in kilograms So, what is the relationship between the Earth and gravity? Law of Universal Gravitation Developed in the late 1600s by Sir Isaac Newton States that all objects are attracted to each other by a gravitational force The strength of the force depends on the mass of the object
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What is Gravity? Gravitational Force and Mass
Gravitational Force and Distance As the mass of an object increases, so does the gravitational force The attraction between objects decreases as the distance increases In other words, the further away objects are from each other, then the lesser the attraction between the two objects
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Weight-A Gravitational Force
Relationship between Weight and Mass Definition An object’s weight is proportional to its mass Example: If one object has twice the mass of another object, then it also means that it has twice the weight of the second object The gravitational force exerted on an object
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What is Friction Friction Different types of friction:
A force that resists the motion of two surfaces that are touching In other words, friction is what slows you down Different types of friction: Static friction Sliding friction Fluid friction
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What is Friction? Static friction Sliding friction
Prevents surfaces from sliding past each other The strength of static friction changes to match the applied force In other words, when the two forces are equal to each other, then no movement will occur Opposes the motion of surfaces sliding past each other In other words, when the object is moving because there is a greater applied force, then the sliding friction will not change
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What is friction? Fluid friction
Is friction between a surface and a fluid such as water or air Examples: Air resistance Friction between a surface and air
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What is Friction What causes friction? Reducing friction
Caused through two different methods Microscopic roughness Microscopic dips and bumps of one object rubbing against the dips and bumps of the other object Weak electrical charges When the positive charge of one surface comes in contact with the negative charge of the other surface, an attraction occurs between the two particles Two ways to reduce friction Using some sort of lubricant Examples: Soap Oil Reducing the surface area of an object can help in reducing fluid friction
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What is Net Force? The combination of all the forces acting on an object The way in which these forces are combined depends on the directions of the forces applied to an object
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What Is Net Force? Combining Forces in the Same Direction
Combining Forces in Opposite Directions When applied in the same direction, then the net force is the sum of the individual forces In other words, the direction of the net force is the same as the direction of the individual forces When calculating in the same direction, then you would add them together Both will be going in a positive direction When the forces are being applied in opposite directions, then the net force is still the sum of the forces However, one force would be in the positive direction, while the other force would be in the negative direction
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What is Net Force? Balanced Forces Unbalanced Forces
Forces acting on an object that combine and form a net force of zero Doesn’t change the motion of an object Forces acting on an object that combine and form a net force that is not zero Will change the motion of an object
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Newton’s First Law of Motion
Developed by Isaac Newton States that if the net force of an object is zero, the motion of the object is zero
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Newton’s First Law of Motion
Balanced Forces and Motion Unbalanced Forces and Motion Cause no change in an object’s velocity True whenever an object is either at rest or in motion Newton’s law only applies to this concept When unbalanced forces act on an object at rest, the object starts moving When unbalanced forces act on an object in motion, then the object’s speed, direction of motion, or both will change
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Newton’s First Law of motion
Inertia Why do objects stop moving? The tendency of an object to resist change in its motion In other words, inertia is what helps keep an object in place Inertia helps the object to stay in place, while friction helps in resisting movement An object can only move when a greater force is applied to the object in order to overcome friction.
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Unbalanced Forces Unbalanced Forces and Velocity
Unbalanced Forces on an Object at Rest Recall: What is velocity? Only unbalanced forces will change an object’s velocity Example: Ball resting in your hand Is the ball moving? So therefore, it is what? However, if a force acts on the ball, what’s going to happen? When unbalanced forces act on an object, the object begins moving in the direction of the net force.
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Unbalanced Forces on an Object in Motion
Speeding Up Slowing Down If the net force acting on a moving object is in direction that the object is moving, the object will speed up. In other words, if the object and force are going in the same direction, then object speeds up. If the net force acting on the object is in the opposite direction of the moving object, then the object slows down. In other words, if the net force is in the opposite direction, then the object slows down.
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Unbalanced Forces Changes of Direction of Motion
Unbalanced Forces and Acceleration Unbalanced forces can change an object’s velocity by also changing its direction. Example: Tectonic plates Change the direction of the Earth’s crust by pushing against each other Unbalanced forces can make an object change its acceleration also by changing its speed, direction, or both.
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Newton’s Second Law of Motion
Developed by Isaac Newton States that the acceleration of an object is equal to the net force acting on the object divided by the object’s mass SI Units: Acceleration: m/s² Mass: kg Force: N Helps to describe the relationship between an object’s change in velocity over time, or acceleration, and unbalanced forces acting on an object Applies the concept to forces acting in a line
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Circular Motion Any motion in which an object is moving along a curved path Newton’s Second Law of Motion also applies to this concept as well
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Circular Motion The Motion of Satellites and the Planets
Centripetal Force The Motion of Satellites and the Planets A force that acts perpendicular to the direction of motion toward the center of the curve Example: Ball on a string Satellites also experience centripetal force Satellite An object in space that orbits another object What keeps a satellite orbiting? Gravity Is the centripetal force that helps to keep an object in motion by changing its direction
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Opposite Forces When an object applies a force on another object, the second object applies a force of the same strength on the first object, but the force is in the opposite direction.
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Newton’s Third Law of Motion
Recall: Newton’s first two laws of motion describe the effects of balanced and unbalanced forces on one object. Looks at the forces between two objects States that when one object exerts a force on a second object, the second object exerts an equal force in the opposite direction of the first object Example: Gymnast pushing against a vault
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Newton’s Third Law of Motion
Forced Pairs Action and Reaction The forces two objects apply to each other Usually equal in size and opposite in directions Won’t cancel each other out when calculating net force because it acts on two different objects In a force pair, there are action and reaction forces. Action forces The force that you apply Reaction forces The force that pushes back against you In other words, for every action, there is an equal and opposite reaction.
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Newton’s Third Law of Motion
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Momentum Because action and reaction forces don’t cancel each other, they can change the motion of the objects. Useful way to describe changes in velocity in action and reaction forces is by looking at the momentum What is momentum? A measure of how hard it is to stop a moving object Newton’s first two laws of motion relate to momentum
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Momentum Newton’s Second Law of Motion Newton’s First Law of Motion
Recall: If the net force of an object is zero, its velocity doesn’t change In relation to momentum, it means that the momentum of the object won’t change either Recall: The net force of an object is the product of its mass and its change in velocity In relation to momentum, momentum is also the product of mass and velocity, and, therefore, the force of the object is equal to the change in momentum.
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Conservation of Momentum
Example: A cue ball hitting the other balls on a pool table When you hit a cue ball with a pool stick, does it have momentum? If so, how do you know? When that cue ball hits the other balls, what do you think is going to happen to the cue ball’s velocity and momentum? Why?
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Conservation of momentum
Law of Conservation of Momentum Types of Collisions In any collision, one object transfers momentum to another object. However, the overall momentum won’t change. Why? Law of Conservation of Momentum States that the total momentum of a group object stays the same unless outside forces act on the objects Outside forces include: Friction Because it decreases the velocities and causes momentum to be lost Objects collide with each other in different ways. Two types of collisions: Elastic When the colliding objects bounce off each other Example: Two balls hitting each other and bouncing off each other Inelastic When the colliding objects stick together Two football players tackling each other
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