Transcript Document
Motion •Position = location •Motion = Event that involves a change in the position or location of something •Distance is the total length traveled from motion…distance traveled depends on the path you take •Displacement is a straight line distance between 2 points •Reference point is a location to which you compare other locations •Change in position tells us that motion took place but doesn’t tell us how quickly happened Types of Motion • Uniform motion - constant speed in a straight line • Accelerated motion – motion that is changing in speed or direction • Circular motion - speed is constant but the direction of motion is changing continuously Speed • • Speed = the distance something moves in a given amount of time Speed is a rate; rates are when you compare a change in one quantity to another • • • • • The standard unit for speed is meters per second m/s • • quantity The greater the speed, the faster it changes position To calculate speed, you need distance and time measurements; s = d/t Speed is not constant Your speed at any given moment is your instantaneous speed…how fast something is moving at a particular instance in time Average speed = total distance traveled / total time elapsed Constant Speed = speed that doesn’t change Velocity + • Velocity is speed in a certain direction…units are m/s too! • Vector – has magnitude (speed) and direction. Velocity is a vector. • Speed is a scalar quantity…it only has magnitude Acceleration Velocity = distance / time (remember velocity is a vector) Acceleration = Vfinal – Vinitial Time NBC Science of Football • Acceleration is the rate in which velocity changes with time, its not the same as velocity • It is any change in velocity…when you come to a stop or turn you are accelerating • Units of acceleration are expressed in m/s2 because it is velocity (m/s) divided by time (s) • Free fall is an object in motion solely under the influence of gravity…9.8m/s2…which means every second speed increases by 9.8 m/s Relative Motion Animations • How an observer sees motion depends on how it compares with their motion… is called relative motion • Relative Motion – it is described and compared to a REFERENCE POINT • Motion is described by using a frame of reference • Look at the picture of the planes above, which is moving? Force • Force is a push or pull on an object In a particular direction…forces are used everyday to change the motion of objects; Forces cause changes in speed and direction (velocity) and acceleration • Contact forces are those that push or pull an object by touching it • Action-at-a-distance forces are another type of force like gravity, electrical force between two charges, and magnetic force • Forces usually act in pairs • Forces usually can’t be seen, but their effects can • Gravity is the force of attraction between two masses…the earth’s gravity pulls on us • • • • How Can Forces Affect Objects? Slow them down Speed them up Change their direction Change their shape…squeeze and tear Force Animations • Like Velocity, Force is a vector…it has ? And ? To get a car from point a to point b, force must be applied in the right direction • Net force is the overall force acting on an object when all other forces are combined…if net force = 0 then the force acting on the object is balanced • Balanced forces have the same effect of no force at all • Unbalanced forces are needed to change an object’s direction/motion • When two forces act in the same direction the net force is the sum of the two forces; when unequal forces act in opposite directions the net force is the difference of the two • The final force and direction is called the resultant force • The unit for force is the NEWTON which is equal to kg*m/s2 Newton’s Three Laws • Sir Isaac Newton helped develop three laws to describe motion that are still in use today • Newton’s ideas were built upon those of Galileo Galilee • Galileo concluded that in the absence of friction, a moving object will continue to move, even if there is no force acting on it…friction stops objects in motion Newton's 1st Law = Law of Inertia • Objects at rest stay at rest and those moving stay moving unless there is a force acting on them…Newton’s 1st Law (Law of Inertia) • Inertia is a resistance of an object to a change in the speed or direction of its motion…Newton’s First Law is also known as the law of inertia • Inertia is closely related to mass…when you measure mass you are also measuring its inertia…it is easier to push a Hyundai than a Mac truck…it is harder to change the motion of an object with more mass…the more mass, the more inertia • Slamming on the breaks in a car is an example of our inertia overcoming the force of friction on the seats Animations Newton's nd 2 Law • If you are to give 2 objects of different masses the same acceleration, different forces need to be applied • Newton’s 2nd Law states that the acceleration of an object increases with increased force. Acceleration also goes up with decreasing mass…the direction of acceleration is the same as the force • In other words, if you wanted to give two different masses different accelerations you would need to apply different forces to them F = ma M = F/a a = F/m http://www.myphysicslab.com/pendulum1.html • Force = mass x acceleration • To use this you need to understand the units for force are called Newtons (N) • A Newton is the amount of force needed to accelerate 1 kg of mass one meter per second (1 m/s2)…1 kg x m/s2 Newton’s Third Law Force • Every action has an equal and opposite reaction = Newton’s 3rd Law • When you stub your toe, the same force is exerted back on you as you put in • Your chair resists the force of your body with the same push • Describes why forces act in pairs • Action and reaction forces are equal forces acting in opposite directions on different objects Friction • Friction is a force that resists motion between two surfaces that are pressed together. The direction of friction force is always in a direction opposing motion • Although friction can make some tasks more difficult, most activities, like walking, would be impossible without it • Many surfaces appear to be smooth, but when magnified, have bumps and ridges • The type of surface, motion of the surface, and force pressing the surface together all determine the friction between objects • Friction also produces heat • Friction created in a fluid is called drag • Friction due to the air is called air resistance Centripetal Force • Centripetal force is any force that keeps an object moving in a circle • The force points toward the center of the circle • The faster an object spins, the greater the acceleration, the greater the acceleration, the greater the force • Likewise, the more massive an object, the more force required to keep it moving at the same speed as a less massive one • The opposite, centrifugal force, is an outward force away from the center of rotation • Momentum is a measure of mass in motion…the momentum of an object is the product of its mass and its velocity • At the same velocity, a semitruck has more momentum than a Scooter • You can increase momentum by increasing velocity • Is similar to inertia; both depend on mass • Dissimilar in that momentum has velocity • Momentum = mass x velocity; Momentum or p = mv • Momentum is a vector • Conservation of momentum states that in the absence of an external force, the momentum of an object remains unchanged • A collision is a situation in which two objects in close contact exchange energy and momentum…momentum is conserved in these collisions