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Physical Science Unit:. Forces. FORCE. A PUSH OR A PULL A FORCE MAY GIVE ENRGY TO AN OBJECT AND CAUSE IT TO START MOVING OR CHANGE ITS MOTION The force gives energy to an object The energy can set the object in motion, stop its motion or change the speed and direction of its motion.
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Physical ScienceUnit: Forces
FORCE A PUSH OR A PULL A FORCE MAY GIVE ENRGY TO AN OBJECT AND CAUSE IT TO START MOVING OR CHANGE ITS MOTION The force gives energy to an object The energy can set the object in motion, stop its motion or change the speed and direction of its motion
The Nature of Force A Push Or A Pull Just likeVelocity&AccelerationForceshave both magnitude and direction components By definition, a Force is a push or a pull.
Force • Force is a vector quantity. • Described by magnitude and direction. • An arrow represents the direction and strength of a force and the longer the arrow, the greater the force. • The SI unit for force is a Newton.
Vectors • Vectors are a method used to visually show forces • A vector is a quantity which has both magnitude (size) and direction. • The length of the arrow shows the magnitude of the vector. • The angle of the arrow shows the vector's direction. • Just like numbers, we can add two or more vectors together and get a net forcecalled the resultant
Adding 2 or More Vectors Fig 1 Fig 3 Fig 2 Add vectors A and B to get the Resultant C A + B = C Fig 1 - shows the magnitude & direction of the 2 vectors we are adding Fig 2 – we move the beginning of vector B to the end of Vector A, making sure to keep the magnitude & direction exactly the same Fig 3 – Connect the beginning of Vector A to the end of Vector B, this is your “Resultant” C.
Combining Forces • Often, more than a single force acts on an object at one time. • Net Force is the combination of all forces acting on an object. • Combined forces that are balanced are always equal to zero
Balanced Forces are equal forces acting on one object in opposite directions When equal forces are exerted in opposite directions there is no net force. Balanced forces acting on an object do not change the object's velocity (keeps velocity constant) Balanced Forces
Unbalanced forces • Forces that are not opposite and equal • While balanced forces cause no change in motion, unbalanced forces always cause a change in motion.
Unbalanced forces • When 2 unbalanced forces are exerted in opposite directions, the combined force is the difference between the 2 forces
Balanced & Unbalanced Forces With a Balanced force – opposite and equal forces acting on the same object result in NO motion of the object Unbalanced forces – two or more forces of unequal strength or direction acting upon on an object results in the motion of the object
Friction • Friction The force that opposes the motion of an object, It is a force that two surfaces exert on each other when they rub against each other. • Friction acts in the direction opposite to motion. and is the force that brings an object to rest • Without friction or other unbalanced forces, an object will not stop until it hits another object.
Isaac Newton 17th century • Said that no force is necessary to keep an object in motion at a constant speed, and that objects do not come to rest on their own
Causes of Friction • Smooth surface has less friction than rough surface. • Strength of force of friction depends on types of surfaces involved and how hard the surfaces push together. (i.e. rubbing hands together)
4 Types of Friction • Static Friction - Friction that acts on objects that are not moving • Example: moving a piece of furniture across room. • Must use extra force to start friction of stationary objects.
Sliding Friction - Friction where two solid surfaces slide over each other. When an object is pulled at a constant velocity across a level surface, the pulling force equals the sliding friction. • The amount of sliding friction present depends on 2 factors: 1. weight of object moving 2. type of surface object is sliding across
Rolling friction - Friction where an object rolls across a surface. • Rolling friction is less than sliding friction.
Fluid friction - Friction where a solid object moves through a fluid. • Less than sliding friction. • A substance that changes sliding friction to fluid friction is called a lubricant, ex parts of machines bathed in oil.
Example Problem • . A 5 kg block is pulled across a table by a horizontal force of 40 N with a frictional force of 8 N opposing the motion. Calculate the acceleration of the object. • Solution: • F=ma 40N-8N=32N of force in a direction 32N=5(a) a=6.4 m/s2
Gravitational Force: • The attraction between any 2 objects that have mass • As mass increases so does the attraction • As distance increases gravitational force decreases
Electrical forces • Forces between electrical charges • Objects with different charges pull toward ( attract) each other ex plastic wrap to an object • Objects with the same charge repell
Magnetic force • Forces caused by moving electrical charges ex common magnet
Weak interactions • Forces believed to cause the nuclei of some atoms to break apart • A mass can be acted upon by one or more of these forces at a time
Forces and Motion • During 1665-1666 Isaac Newton developed his 3 laws of motion. • The 3 laws of motion explain rest, constant motion, accelerated motion, and how balanced/unbalanced forces act.
Newton’s 3 Laws of Motion Remember: The greater the mass of an object the greater the inertia • Newton’s 1st Law of Motion: • AKA The Law of Inertia • which states an object at rest will remain at rest, and an object in motion will remain in motion at a constant velocity until acted on by another force.
Remember: • Newton called the tendency of objects to remain in motion or stay at rest: inertia • Inertia: The property of matter to resist any change in motion ( Latin meaning idle or lazy)
Newton’s 3 Laws of Motion • Newton’s Second Law of Motion aka F=ma • Force = mass x acceleration • Can be written as: • F=ma ; a= F/m ; m= F/a • What is the basic unit for mass? Kilogram • What is the basic unit for acceleration? Meter/sec/sec • Therefore the basic unit for Force is (kilogram)( meter/sec/sec) • An object with a mass of 1 kg accelerating at 1 m/s/s has a force of 1 Newton
Remember: • Acceleration is the change in speed or direction • According to the 2nd law of motion, an unbalanced force must be present when there is a change in speed or direction • The acceleration is always in the direction of the unbalanced force
Newton’s 2nd Law & Weight Remember: 1 newton = 0.22 pounds F=ma Weight is the force of gravity acting on an object’s mass. Therefore weight is a type of Force The formula for weight: Weight = mass x Ag Since Ag= 9.8 m/s2 then Weight = mass x 9.8 m/s2
Example Problem Force • What is the force on an object that goes from 35 m/s to 85 m/s in 20 seconds and has a mass of 148 kg? • Solution: • Force = mass x acceleration • 370 N
Example Problem Force • Calculate the force on an object that has a mass of 12 kg and an acceleration of 4 m/s2 . • Solution: • Force = mass x acceleration • F = ma = 12 kg ´ 4 m/s2 = 48 kg ´ m/s2 = 48 N
Example Problem Force • What is the force on a 1000 kg elevator that is falling freely at 9.8 m/sec2? • Solution: • Force = mass x acceleration • f=9,800 n
Example Problem Force • What is the acceleration of a 50 kg object pushed with a force of 500 newtons? • Solution: • Force = mass x acceleration F= ma 500 = 50(a) a= 10 m/s2
Example Problem Force • The mass of a large car is 1000 kg. How much force would be required to accelerate the car at a rate of 3 m/sec2? • Solution • Force = mass x acceleration • F= ma f= 1000 x 3 f= 3000 N
Newton’s 3 Laws of Motion Fluid friction • Newton’s 3rd Law of Motion: • For every action there is an equal & opposite reaction. • If an object is not in motion, then all forces acting on it are balanced and the net force is zero! • Friction – the force that one surface exerts on another when the two rub against each other. Sliding friction Rolling friction
How Do Rockets Lift Off? • Rockets and space shuttles lift into space using Newton’s third law of motion. • They burn fuel and push the exhaust gases downward at a high velocity as they lift off. In turn, the gases push upward on the rocket. •
A rocket can rise into the air because the gases it expels with a downward action force exert an equal but opposite reaction force on the rocket. • As long as this upward force, called thrust, is greater than the downward pull of gravity, there is an unbalanced force in the upward direction that causes a change in the rocket's velocity. As a result, the rocket accelerates upward into space.
Newton’s 3 laws of motion can explain all aspects of an objects motion
Gravity • Gravity is a force that pulls objects toward each other. • Newton realized gravity acts everywhere in universe. • Law of Universal Gravitation states that the force of gravity acts between all objects in the universe. • Any two objects in the universe, without exception, attract each other.
Law of Universal Gravitation • Newton was the 1st scientist to prove that the forces pulling an apple to the ground were the same forces pulling the moon toward the earth • This was the first universal law of force ( applies to all objects in the universe)
The size of the force depends on 2 factors: • 1. Mass of object • 2. Distance between the objects • The force of gravity increases as objects mass increases • Gravitational force decreases as distance between objects decreases
Free fall • Free fall – when the only force acting on an object is gravity. • In free fall, the force of gravity alone causes an object to accelerate in the downward direction. • All objects in free fall accelerate at the same rate. • Since objects fall at the same speed, their acceleration is the same. • All objects accelerate at the rate. Here on Earth the rate is: • Ag=9.8 m/s2 • Or • Ag=32 ft/s2
air resistance • Any falling object meets air resistance • As the object falls, the air resistance gradually becomes equal to the pull of gravity. • When an object reaches the point that it no longer accelerates, it has reached its terminal velocity ex T.V. of sky diver is 190 km/hr
Air Resistance Air resistance keeps things from falling equally • Air resistance is a type of fluid friction. • Air resistance is an upward force exerted on falling objects. • Objects with greater surface area experience more air resistance as they fall. (Flat piece of paper vs. crumpled piece of paper)