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34 Cards in this Set
- Front
- Back
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waxy layer
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top layer of leaf, keeps water from evaporating
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photosynthetic layer
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between waxy layer and xylem, captures sun energy
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xylem
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between photosynthetic layer and phloem, moves water
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phloem
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between xylem and spongey layer, moves glucose
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spongey layer
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between ploem and gaurd cells, take in or absorb carbon dioxide, give off oxygen
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gaurd cells
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between spongey layer and stoma, open and close stomata
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stoma
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bottom layer, opening for carbon dioxide to enter and oxygen to leave
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6 CO^2 + 6 O^2 -> C^6 H^12 O^6 + 6O^2
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formula for photosynthesis
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blades
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thin flattened section that collects sunlight
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petiole
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thin stalk that attaches stem to leaf
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what xylem moves
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water
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direction that xylem moves water
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straight up from roots to leaves. uses capillary action & transpiration
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xylem cells
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1 continuous straw. cells are dead
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what phloem moves
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glucose
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direction phloem moves glucose
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up and down. cycle of leaves to roots to new stalks to new shoots to leaves
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perennial
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plant that lived many years and makes many layers of xylem and phloem
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formula for photosynthesis
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what happens in step 2
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electron transport chain
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what happens in step 1
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water is split using sun energy
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what happens in step 3
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Calvin cycle
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what happens in step 4
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makes glucose
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chemical equation for step 1
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chemical equation for step 2
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nadp and atp
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equation for step 3
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equation for step 4
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step 1 location
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thylakoid membrane
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step 2 location
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thylakoid membrane
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step 3 location
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stroma
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how atp is made
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high concentrations of H+ transfers energy. app synthesis to adp +p --> atp
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what atp is for
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energy from atp drives calvin cycle & glucose formation
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where step 4 happens
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stroma
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electron transport chain
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what are tree ring
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layers of xylem
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why we tap outer layer of tree
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we are trying to access the glucose in the phloem
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