Which Of These Will Reflect Light With The Highest Frequency

Which Of These Will Reflect Light With The Highest Frequency. A) an orange basketballb) a blue candlec) a green ribbond) a yellow The light wave could be absorbed by the object, in which case its energy is converted to heat.

The Spectrum Boundless Physics
The Spectrum Boundless Physics from courses.lumenlearning.com

These are the waves that have a frequency of less than 300 thz, or more than 1000 nm. Explanation of solution justify the reasons for the correct statement: Which headings best complete the chart?

The Lowest Visible Light Frequency, Which Is Red, Has The.

These are the waves that have a frequency of less than 300 thz, or more than 1000 nm. An orange basketball a blue candle a green ribbon a yellow banana all answers alexisger6089 the correct answer is. A) an orange basketballb) a blue candlec) a green ribbond) a yellow

And Waves With A Small Wavelength Have A High Frequency.

Violet has the highest frequency on the visible light spectrum, with a wavelength of around 380nm (200~400nm) figure 1: What is the highest frequency the highest frequency colour, which is violet, also has the most energy when it comes to visible light. What will be the wavelength and frequency of the reflected light?

The Higher The Frequency, The Faster The Oscillations And Thus The Higher The Energy.

So, the correct answer is option (c). Which headings best complete the chart? Ultraviolet uv is a form of electromagnetic radiation with wavelength from 10 nm with a corresponding frequency around 30 phz to 400 nm 750 thz shorter than that of visible light.

Which Of These Will Reflect Light With The Highest Frequency?

Green light has a higher frequency than orange light. Explanation of solution justify the reasons for the correct statement: At which angle, the reflected ray will be perpendicular to.

The Highest Frequency Will Be For 1 Nm Wavelength Of Light.

Violet has highest frequency and shortest wavelength. The question i think you mean to ask is which colour has the longest wavelength (lowest frequency & energy), and which colour has the shortest wavelength (highest. The higher the frequency, the faster the oscillations and thus the higher the energy.