OpenSciEd Unit 8.2 review

Wave Basics

Energy Transfer

Real-World Applications

Sound and Matter

Experiment Findings

100

What is frequency?

a measure of the number of wave crests that pass a fixed point per second

100

How do sound waves transfer energy?

By vibrating particles in the medium they travel through, and colliding with one another.

100

Can you give an example of how sound is used in medical imaging?

Ultrasound uses sound waves to create images of the inside of the body.

100

What type of matter does sound travel fastest through?

Solid, liquid, or gas? And WHY?

SOLID: Travels faster due to closely packed particles.

100

What did we figure out in the stick vibration experiment with the motion detector?

Longer sticks vibrate slower, producing lower-pitched sounds.

200

What is amplitude?

how high a wave goes up or how low it goes down

200

Does amplitude have anything to do with energy? If so, how?

Higher amplitude means more energy transfer, lower amplitude means less energy transfer.

200

Can you give an example of sound absorption?

Acoustic panels in a musical studio, band room, orchestra room, choir room, that absorb sound to reduce echoes.

200

Compare speed that sound moves through in liquids versus gases.

Sound travels faster in liquids than gases due to particle density.

200

Tuning fork demonstration?

Showed how sound waves are produced and transmitted.

300

What is the amplitude and frequency of this wave? (low, medium, high...)

(Your teacher will show you)

Low amplitude, high frequency

300

What causes a sound source to make a sound?

Force must be applied, which makes it vibrate.

300

Can you give an example of an application of sound reflection? (echoes)

Echolocation in bats and submarines.

300

Explain how particle collisions cause sound?

Sound travels through particle collisions in the medium.

300

What was the sealed Ziploc bag experiment conclusion?

That sound needs a medium to travel, and it can travel through solids (the bag).

400

What is the amplitude and frequency of this sound wave? (low, medium, high...)

(Your teacher will show you)

High amplitude, low frequency

400

Give one example of where energy transfer takes place when the speaker makes the window move.

(Just need one)

1. Speaker vibrates, transferring energy to the air particles, making them vibrate.

2. Air particles crash into each other, transferring energy.

3. Air particles crash into the window, transferring energy to the window.

400

Can you give an example of when architecture designs keep sound waves in mind?

Designing concert halls for optimal sound quality.

400

What is a medium's effect on sound speed?

The denser the medium, the faster the sound travels.

400

What is one reason why humans can lose their hearing?

The hairs in their ears get damaged or worn down by loud or high pitch sounds.

500

How is wave speed calculated?

Wave speed equals frequency times wavelength.

500

Explain how sound is heard by our ears.

Sound source has force applied to it, which causes it to vibrate.

Then, the sound source causes the air particles to vibrate, crashing into one another, transferring energy.

Then, the air particles transfer energy to each other as they crash into each other.

Then, the air particles eventually crash into the ear drum, transferring energy to the ear drum, causing us to hear the sound.

500

When are sound waves used in communication?

Using sound waves in devices like phones for transmitting voice.

500

Can you hear sound in a vacuum? Why or why not?

Sound cannot travel in a vacuum as there are no particles to transmit it.

500

What is the membrane called that vibrates and also causes some of the hairs in our ears to vibrate, which is the final step in hearing sound?

The basilar membrane