Question:Start with a photon of sunlight and a carbon atom in a molecule of carbon dioxide in the atmosphere: model/diagram their pathway from that starting point to their final destination as a glucose molecule that is used for energy in a cell in the plant root. Following your diagram/model, provide a written explanation for what your diagram/model depicts. Make sure both your model and explanation are clear, concise, and have the appropriate level of detail to clearly demonstrate you understand photosynthesis, cellular respiration, and the movement of mass and energy in plants. hence- recreate the diagram on pic 29 , but using the information from this problem. Then, when you get to cell respiration, explain what happens, and how carbs get converted to lipids in pic12 3. Use monomers to build new intermediates in Citric Acid Cycle and change thetype (Carb -> Protein, Protein -> Lipid, Lipid -> Carb, etc.)Fats and phospholipidsmacromoleculeProteinsCatabolicpathwaysAnabolicpathwaysCarbohydratesSugarsGlucoseGlycogenor starchGlycerolGLYCOLYSISPyruvateLactate.(from fermentation)→Fatty acidsSubstrates fornucleotide synthesisAmino acidsAcetyl COA-Fatty acids.PhospholipidsFatsNH3CITRICACIDCYCLESubstrates for aminoacid synthesis Pizza (Starch)Facilitated diffusion intobloodstream throughcapillariesFlow and merge intovenulesCellularRespirationIngested through theMouth where it'schewed(mechanical digestion)Facilitateddiffusion/cotransportinto epithelium of smallintestineFlow and merge intoveinsFacilitated diffusion intobig toeSwallowed, movesthrough EsophagusBroken down intoGlucoseEnters heart(Right Atrium -> RightVentricle)Pumps throughsystemic circuit(Arteries, arterioles,capillaries)Dumped into StomachMechanical digestionEnters small intestineFinishes chemicaldigestionFlows throughpulmonary circuit(Arteries, arterioles,capillaries, venules,veins)Oxygen & Glucose richblood enters heart(Left Atrium -> Leftventricle)

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Answered: Start with a photon of sunlight and a…

1st Edition

ISBN:9781938168130

Author:Kelly A. Young, James A. Wise, Peter DeSaix, Dean H. Kruse, Brandon Poe, Eddie Johnson, Jody E. Johnson, Oksana Korol, J. Gordon Betts, Mark Womble

Publisher:Kelly A. Young, James A. Wise, Peter DeSaix, Dean H. Kruse, Brandon Poe, Eddie Johnson, Jody E. Johnson, Oksana Korol, J. Gordon Betts, Mark Womble

Chapter23: The Digestive System

Section: Chapter Questions

Problem 5ILQ: Watch this animation (http://openstaxcollege.org/l/sintestine) that depicts the structure of the...

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Start with a photon of sunlight and a carbon atom in a molecule of carbon dioxide in the atmosphere: model/diagram their pathway from that starting point to their final destination as a glucose molecule that is used for energy in a cell in the plant root. Following your diagram/model, provide a written explanation for what your diagram/model depicts. Make sure both your model and explanation are clear, concise, and have the appropriate level of detail to clearly demonstrate you understand photosynthesis, cellular respiration, and the movement of mass and energy in plants.

hence- recreate the diagram on pic 29 , but using the information from this problem. Then, when you get to cell respiration, explain what happens, and how carbs get converted to lipids in pic12

3. Use monomers to build new intermediates in Citric Acid Cycle and change the
type (Carb -> Protein, Protein -> Lipid, Lipid -> Carb, etc.)
Fats and phospholipids
macromolecule
Proteins
Catabolic
pathways
Anabolic
pathways
Carbohydrates
Sugars
Glucose
Glycogen
or starch
Glycerol
GLYCOLYSI
S
Pyruvate
Lactate.
(from fermentation)
→Fatty acids
Substrates for
nucleotide synthesis
Amino acids
Acetyl COA
-Fatty acids.
Phospholipids
Fats
NH3
CITRIC
ACID
CYCLE
Substrates for amino
acid synthesis

Pizza (Starch)
Facilitated diffusion into
bloodstream through
capillaries
Flow and merge into
venules
Cellular
Respiration
Ingested through the
Mouth where it's
chewed
(mechanical digestion)
Facilitated
diffusion/cotransport
into epithelium of small
intestine
Flow and merge into
veins
Facilitated diffusion into
big toe
Swallowed, moves
through Esophagus
Broken down into
Glucose
Enters heart
(Right Atrium -> Right
Ventricle)
Pumps through
systemic circuit
(Arteries, arterioles,
capillaries)
Dumped into Stomach
Mechanical digestion
Enters small intestine
Finishes chemical
digestion
Flows through
pulmonary circuit
(Arteries, arterioles,
capillaries, venules,
veins)
Oxygen & Glucose rich
blood enters heart
(Left Atrium -> Left
ventricle)

Definition Definition Set of metabolic processes and reactions that produce energy from organic substances such as glucose. Cellular respiration takes place in the organism’s cells, where the chemical energy from nutrients or molecules of oxygen is converted into adenosine triphosphate (ATP). Cellular respiration that occurs in the presence of oxygen is called aerobic respiration; in the absence of oxygen, it is called anaerobic respiration.

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