Question: Are distance and time important when describing motion? DESCRIBING MOTION. Motion occurs when an object changes position relative to a.

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Question: Are distance and time important when describing motion? DESCRIBING MOTION Motion occurs when an object changes position relative to a. DISTANCE VS. DISPLACEMENT Distance Displacement distance and direction of an objects change in position from starting point SPEED Speed the distance an object travels per unit time rate of in position Avg Speed (v) = total distance (d)/total time (t) V = d/t Type of Speed Description Example INSRANTANEOUS Speed at any given Driving a car and point in time looking down at speedometer AVERAGE Total distance traveled divided by Taking a road trip total time CONSTANT Speed that does Putting car in not vary cruise control

GRAPHING MOTION Y Motion of an object can be plotted on a distance time graph. X axis -> TIME Y axis -> DISTANCE E C N A T S I D TIME The slope of a line on a distance time graph gives the speed of an object in motion. X

Question: What is the difference between positive and negative acceleration? ACCELERATION Velocity includes of an object and the direction of its motion Q: What is the difference between speed & velocity? Velocity includes direction whereas speed does not Acceleration rate of chance of velocity. Acceleration occurs when an object changes speed, its direction, or both. CALCULATING ACCELERATION Acceleration (m/s²) = change in velocity (m/s) Time (seconds) * NOTE : Change in velocity = final velocity initial velocity v= Vf - Vi Acceleration formula: t a=vf Vi POSITIVE ACCELERATION NEGATIVE ACCELERATION A plane takes off A bike comes to a stop a = Vf Vi = 80m/s Om/s a = Vf Vi = 0m/s 3m/s t 20s t 2s a = 4m/s² a = -1.5m/s The plane is speeding up so The bike is slowing acceleration is positive down so acceleration is negative

Question: What does the force of friction between two objects in contact depend on? MOTION AND FORCES Force a push or pull applied to an object. Net Force When two or more forces act on an object at the same time FORCES ARE = FORCES COMBINED FORCES BALANCED FORCES UNBALANCED NET FORCE = TWO NET FORCE = 0 NET FORCE = + FORCES ADDED TOGETHER Friction the force that opposes the sliding motion of two touching surfaces. Friction is caused by microscopic bumps on surfaces called microwelds. TYPE OF FRICTION DESCRIPTION EXAMPLE STATIC Friction in which PUSHING A FRIDGE two surfaces are ACROSS A FLOOR not moving past each other. SLIDING Friction where two SLEDDING DOWN A surfaces slide past HILL one another.

ROLLING Friction between a SKATEBOARD rolling object and MOVING ON surface it rolls on. GROUND FLUID Friction when object SKYDIVING moves through fluid, meaning either a liquid or gas Air Resistance Friction like force that opposes motion of objects that move through air depends on speed, size & shape of object

Question: Newton established his three laws of motion to do what? NEWTON S LAWS OF MOTION Newton s First Law of Motion ALSO KNOWN AS LAW OF INERTIA! An object in motion stays in motion, or an object at rest stays at rest until an unbalanced net force acts upon it. Inertia tendency of an object to resist any change in its motion. WILL STAY AT REST UNTIL FORCE ACTS IN IT GRAVITY WILL CONTINUE IN MOTION UNTIL THESE FORCES ACT ON IT FRICTION WALL Newton s Second Law of Motion A net force acting on an object causes the object to accelerate in the direction of the force. (Kg * m/s²) (kg) (m/s²) Force = mass x acceleration F = m x a Acceleration is determined by size of force and the mass of an object.

Newton s Third Law of Motion For every action (or force), there is an equal and opposite reaction (or force). ACTION REACTION Momentum property of moving object resulting from its mass and velocity. Momentum (p) = mass x velocity Question: What causes the path of a projectile to be curved? GRAVITY Gravity any two masses that exert an attractive force on

each other Gravity depends on mass & distance between objects Weight gravitational force exerted on an object; measured in units called Newtons The greater the object mass, the stronger the gravitational force on it PROJECTILE MOTION Projectile anything that is thrown or shot through air A projectile follows a curved path and has: and HORIZONTAL MOTION Motion parallel to Earth s surface V E R T I C A L M O T I O N Motion perpendicular to Earth s Surface CENTRIPETAL FORCE Centripetal acceleration acceleration toward the center of a curved or circular path centripetal means toward the center Centripetal force force acting toward the center of a curved or circular path V E R T I

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