Motion, Speed, Velocity and Acceleration

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Presentation transcript:

Motion, Speed, Velocity and Acceleration

Motion Motion – an object’s change in position relative to a reference point

Reference Point The Earth’s surface is used as a common reference point A moving object can be used as a reference point as well

Speed Speed is the distance traveled divided by the time interval during which the motion occurred Normally, objects do not travel at a constant speed Average Speed - total distance total time

                                                           Which Distance? Farmer Jones drives 6 miles down a straight road. She turns around and drives 4 miles back. What was her average speed for this trip if it took 1 hour?

Your answer to this problem depends on your interpretation of "distance traveled". You could say: The total distance traveled by Farmer Jones is 10 miles. Therefore her average speed is 10 mi/hr. The net distance traveled by Farmer Jones is 2 miles. Therefore, her average speed is 2 mi/hr. There are good reasons to use either interpretation - it's mostly a matter of preference. We will interpret "distance traveled" to be net distance (also called displacement). Farmer Jones' average speed was 2 mi/hr.

Velocity Velocity is the speed of an object in a particular direction Imagine two birds leave the same tree at the same time. They both fly at 10km/hr for 5 minutes. Why don’t they end up at the same place?

Velocity Velocity appears to be very similar to speed, however, when describing the velocity of an object you need to provide a magnitude and a direction Magnitude – the speed of the object Direction – the direction the object is moving

Velocity Ex) A bus has a velocity of 35miles/hr heading west

Resultant Velocity An object can have a resultant velocity if it is experiencing more than one motion. For example if a person walks down the center of a bus while it is in motion there are two velocities occurring. 1. The movement of the bus 2. The movement of the person inside the bus

Example 15 m/s + = 1 m/s 14 m/s

Example 15 m/s + 1 m/s = 16 m/s

Acceleration Acceleration is the rate at which velocity changes over time An object accelerates if its speed, direction, or both change Average acceleration = final velocity – starting velocity time it takes to change velocity

Acceleration Example A car on the highway is traveling 55 mi/hr and it passes another car. In order to pass, the car has to accelerate to 65 mi/hr. The car reaches this velocity 40 seconds later. What is the average acceleration of the car?

Acceleration and Velocity As velocity increases, so does acceleration As velocity decreases, so does acceleration When direction changes, so does acceleration When there is a constant velocity, there is no acceleration

Momentum Momentum is calculated by multiplying an object’s mass (kg) and it’s velocity (m/s). Formula: P=mv (P=momentum, m=mass and v=velocity) The units for momentum are kg∙m/s in a direction.

Momentum Example: The momentum of a car with a mass of 1,300 kg traveling north at a speed of 28 m/s would be….1,300 kg x 28 m/s = 36,400 kg∙m/s north

Momentum Practice Calculate the momentum of a 100 kg football player running north at a speed of 4 m/s. Show your work and get your notes stamped.