- Motion and Forces
Think about where you are sitting right now.Â Are you facing front?Â Are you 3ft from the door?Â Are you on the right of the window?Â Position is the location of an object.Â Every object has a position.Â The position of your ears are on the side of your head.Â How would you describe the position of your classroom window or doorway?Â These positions do not change.Â Sometimes an object's position does change.Â This is called motion.Â Motion is a change in the position of an object.Â There are many kinds of motion.Â An escalator goes up or down, a swing swings back and forth.Â Things may move fast or slow.Â But whenever something moves, its position changes.
Below are two pictures of a boat race.Â In these pictures you cannot see the movement, but how can you tell the boats have moved?
If you notice, the houses in the background have changed.Â You used the houses as your frame of reference.
How fast does your dog run?Â If your dog runs faster than you, his speed is greater.Â Speed tells you how the position of an object changes during a certain amount of time.Â Most of the time we use words like "fast" or "slow" to describe speed.Â If you are fast, you change your position quickly.Â But we can be more exact if we use numbers or units such as 15 miles per hour or 20 meters per second.Â To find speed you need to know two things, distance traveled and time it took to travel that distance.Â The formula for finding speed is distance divided by time.Â S = D/T.
For example, if a runner ran 100 meters in 10 seconds his speed would be 100/10 or 10 meters per second.
Speed Activity:Â Mark off a distance of at least 20 m.Â Walk that distance twice measuring the time with a stopwatch.Â Cover the distance first in 20 seconds and then in 25 seconds.Â How do you determine how quickly you need to walk?
When you tell both the speed and direction of an object, you are telling its velocity.Â When describing the direction part of velocity you could use words like "up" or "down" or "left" or "right".Â Speed could be 25 m/h but velocity would be 25 m/h west.
When you make a change in velocity you use acceleration.Â Accerleration is speeding up, slowing down, or changing direction.Â When a car speeds up after a stop light turns green, that car is accelerating.Â Also, when the car slows down to stop for a red light that is acceleration as well.Â If a car turns a corner, that is acceleration because it is changing direction.Â
To make acceleration happen, you must use a force.Â Forces are pushes and pulls and you measure force in newtons (N).Â Forces change motion. With more force, comes more acceleration.Â The harder you push a box across the floor, the faster it moves.
In this picture, one force is greater than the other so the book would move 2 N to the left.
The size of the force affects the accerleration.Â If you lightly tap a baseball with a bat, it will not leave the in-field or even get past the pitcher.Â But if you really hit that ball, it will go to the out-field or maybe even out of the ballpark!Â Â Â Â
Try this.Â Place your hand on your throat and hum.Â What do you feel?Â You probably feel slight movements or vibrations.Â A quick back-and-forth movement is a vibration.Â When something vibrates, the air around it vibrates too.Â The vibrations then move through the air.Â They travel out in all directions and when they finally reach your ear, you hear them as sounds.Â Â Â
You can hear sounds through the air, but you can also hear through other materials.Â You can hear sound through water or walls.Â Vibrations can travel through liquids, solids and gas mixtures like air.
Â The vibrations that carry the sound are called sound waves.Â When those waves reach your ear they make your eardrum vibrate which sends a signal to your brain so you can hear it.Â Sounds can be soft or loud, high or low but they are all carried by sound waves.
What is the difference between a German Shepard's bark and a Chihuahua's?Â Both bark but one sounds very deep while the other is rather high.Â Pitch is how high or how low a sound is.Â The two dogs both bark but in different pitch.Â What makes that happen?Â
A small dog has smaller vocal cords which will vibrate faster and closer together.Â They make sound waves that are close together.Â Big objects vibrate slowly and produce waves that are farther apart.Â When the sound waves reach your ears, the close together waves sound higher than the ones that are farther apart.Â What other examples can you think of that are sounds in different pitch?
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