Energy and Matter
Example of refraction with sound and light. (Cause and Effect).
What is light refracts when it goes through water and sound refracts when passing through layers of different temperatures.
Example of reflection with sound and light.
What is color reflects to our eyes to be seen and music reflects to our ears to be heard.
How is amplitude measured, and how does it affect what we see and hear
What is the distance between a wave moves from its resting point. Amplitude affects what we see and hear because greater amplitude means more energy. In sound, higher amplitude makes the sound louder and in light, higher amplitude makes the light appear brighter.
How music is used in the real world
What is reducing stress, improving productivity, and a universal language.
The color that has the longest wavelength on the color spectrum
What is red?
Example of mechanical waves (Transverse, longitudinal, and surface).
What is vibrations on a violin string for transverse, music for longitudinal, and water for surface.
Example of transmission with sound and light.
What is light passes through glass and sound travels through air, water or solids like walls.
How is wavelength measured, and how does it affect what we see and hear.
What is wavelength is the distance between two identical points on a wave. Wavelength affects what we see and hear because shorter and longer wavelengths determine the different colors we see, and in sound, longer wavelengths produce lower pitches while shorter wavelengths produce higher pitches.
How the color theory is used in the real world
What is in branding, design, and art. For example, people would use red for something urgent or blue/green for trustworthy, calming environments.
How music changes it's pitch
What is higher or lower frequency
Example of E.M. waves.
What is color theory, earthquakes, radio waves, microwaves, etc
Example of absorption with sound and light.
What is absorption affects what colors we see, and absorbing materials can absorb music decreasing the volume.
How is frequency measured, and how does it affect what we see and hear.
What is frequency tells us how many waves pass a point each second. Frequency affects what we see and hear because higher frequency sound waves create higher pitch, while lower frequency creates a lower pitch and in light, different frequencies determine different colors we see.
How waves are useful to learn about in the real world
What is waves are used for everyday tasks, waves are also in technology and communication, so like cellphones can send out radio waves. Waves are also used for medical things like x-rays and ultra sounds.
The primary colors
What is red, blue, and green
The difference between E.M. and mechanical waves related to energy and matter.
What is mechanical waves need matter for energy to transfer while E.M. waves don't.
What causes wave interactions in general.
What is waves encountering obstacles or boundaries which can cause them to reflect, refract, absorb, or transmit.
How is speed measured, how does it affect what we see and hear
What is speed is measured by calculating how far a wave travels over a certain amount of time, and can be found using the formula, wavelength x frequency=speed. Speed affects how quickly we see or hear something, for example, light travels faster in gas compared to solids(fastest in space), and sound travels slower in gas compared to solids.
How are waves used in the real world.
What is to get information, transmit data, imaging, and energy transferring
There are this many notes on a piano
What is 88
Why waves move at different speeds through different materials at the molecular level.
What is waves move at different speeds through different materials because molecules in each material are arranged and connected differently.
How certain materials structure cause specific interactions.
What is the way a material is built on the inside affects how it interacts with light. some materials absorb light by turning it into heat, while smooth and shiny materials can reflect light by bouncing it back. Clear materials like glass refract light because the light slows down and bends when it enters them, and transparent materials transmit light by letting them pass through.
The relationship between specific properties and the energy of a wave
What is a higher frequency and shorter wavelength waves would have more energy compared to ones with a lower frequency and longer wavelength, and higher amplitude waves would have more energy compared to ones with a lower amplitude.
The connection of analog and digital to music and color theory.
What is analog represents information in continuous waves, like vinyl records for music or a gradient of colors for color theory. Digital is a whole bunch of unique colors with fine lines in between them while for music, we use music studios to make songs, rhythms, and beats.
How color theory and music relate
What is they relate through shared emotion, can be calming, and can be used in calming or stressful areas.