chapter 8 notes

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Photosynthese Intro
Elizabeth Lovato
Apunte por Elizabeth Lovato, actualizado hace más de 1 año
Elizabeth Lovato
Creado por Elizabeth Lovato hace alrededor de 8 años
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Photosynthesis 8.1 and 8.2

I can: Compare and contrast autrophs and heterotrophs Compare and contrast ADP and ATP state the photosynthesis formula state and explain the scientist who researched it Explain pigments and their roll

Autotrophs vs. Heterotrophs Energy is stored in ATP or ADP ADP= adenosine diphosphate Has 2 phosphates Partially charged battery (not enough for energy) ATP= Adenosine triphosphate Has 3 phosphates Fully charged *Energy is released from ATP when the last bond between phosphates is broken*

Scientists Va Helmont = Concluded that most of a plants mass is made of water (plants take in wat) Priestley = using a candle & jar with a plant, he conculded that plants release oxygen Ingenhouz= plants need light to produce oxygen with the info from the above scientists, the idea of photosynthesis was formed

Photosynthesis Photosynthesis = uses the enrgy of sunlight to convert water and carbon dioxide into suger and oxygen Equation = 6CO2 + 6H2O -> 6C2H12O6+6O2

Pigments In addition to water and carbon dioxide, photosynthesis requires light and chloraphyll Chlorophyll is inside of chloroplast Chlorophyllis a pigment (a loght absorbing molecule), it helps turn light into energy 2 types of chloophylls a and b Ligh absorbed well in the blue, violet, and red sides of the spectrum, but poorly absorbed in the green part Green light is reflected by leaves, which is why they look green

Página 2

Photosynthesis 8.3

I can State the parts of the chloroplast State and explain the light reactions in photosythesis

LD RXN Light- dependent reactions Requires sunlight Happens in thylakoid 5 main stages 1)Photosynthesis 2 absorbs light. Water molecules are broken, electrons are energized.2) Electrons move down electrons transport chain to reach photosystem 13) Photosystem 1 absorbs light, electrons are re-energized and form NADPH4) When H2O was split in step 1, the H+ ions become inside the thylakoid]5) H+ ions from inside thylakoid are pumped out through ATP synthase, which converts ADP to ATP

Calvin Cycle The ARP and NADPH from the LD RXNare used in the calvin cycle AKA light - independent RXN; in stroma Sugar, like glucose, is created 4 main stages 1) 6-CO2 molecules enter the cycle they combine with 6, 5- carbon molecules to make 12, 3- carbon molecules (oxygen is released)2) The 12. 3- carbon molecules are converted using ATP and NADPH (ATP -> ADP & NADPH -> NADP+)3)Two of the 12, 3- carbon molecu;es removed (to created sugars)4) The remainin 10, 3- carbon molecules are converted back into 6, 3- carbon molecules Then cycle starts over from the beginning The ADP and NADP+ (from steps 2) go back to the thylakoid to help with LD RXN

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