On the graph light absorption in % vs wavelength, how come the color of chlorophyll is green?

Since this is an absorption spectra, isn't it supposed to absorb blue and red and not green? Rather, it reflects green???
How would the graph be different if it is a reflection spectra??
I am confused and will have a test on this!!!!
By the way, this is biology.

In order to understand why chlorophyll appears green and the relationship between light absorption and color, let's break it down step by step.

1. Absorption Spectra: When we talk about an absorption spectra, we are referring to the wavelengths of light that are absorbed by a substance. In the case of chlorophyll, it absorbs light primarily in the blue and red regions of the electromagnetic spectrum.

2. Color Perception: The color that we observe is not determined by the light absorbed, but rather by the light that is reflected or transmitted. In other words, the color we perceive is the wavelength of light that is not absorbed but rather bounced back or transmitted through the substance.

3. Chlorophyll and Green Color: Chlorophyll reflects light in the green region of the spectrum because it absorbs mostly blue and red light. The green wavelengths of light are less efficiently absorbed, so they are reflected or transmitted. As a result, our eyes perceive chlorophyll-containing plants as green.

4. Reflection Spectra: If we were to examine the reflection spectra of chlorophyll, the graph would represent the amount of light reflected at different wavelengths rather than absorbed. In this case, we would expect to see a high peak in the green region of the spectrum, reflecting the fact that chlorophyll reflects green light more than it reflects other wavelengths.

To summarize, chlorophyll appears green because it reflects green light while absorbing blue and red light. Understanding the relationship between light absorption, reflection, and color perception helps us make sense of why chlorophyll appears green.