front 1 Photosynthesis Guided Reading! | back 1 no data |
front 2 During the process of photosynthesis, what energy do plants use to make food? | back 2 Sunlight. |
front 3 The green pigment in chloroplasts that absorb light energy from the sun. | back 3 Chlorophyll. |
front 4 What does the cell need to make sugar? | back 4 Energy from the sun, water, and carbon dioxide. |
front 5 What are the products of photosynthesis? | back 5 Oxygen and Sugar. |
front 6 What is the chemical equation for the process of photosynthesis? | back 6 6CO2 (Carbon Dioxide) + 6H2O (Water) - C6H12O6 (Glucose) + 6O2 (Oxygen) |
front 7 What are the raw materials or reactants of the process of photosynthesis? | back 7 Carbon Dioxide and Water. |
front 8 What do plant cells use for food and then store it in plant cells for later use? | back 8 Sugar. |
front 9 Sugar is made into other compounds such as.. | back 9 Cellulose. |
front 10 Extra sugar molecules pass out of the plant through what? | back 10 The Stomata. |
front 11 An autotroph thats energy is directly from the sun. | back 11 Plants. |
front 12 A heterotroph that's energy is indirectly from the sun. | back 12 Caterpillars and Blue Birds. |
front 13 What does photosynthesis produce that most living things need to survive? | back 13 Oxygen. |
front 14 An organism that makes its own food. | back 14 Autotroph. |
front 15 An organism that cannot make its own food. | back 15 Heterotroph. |
front 16 Respiration Guided Reading! | back 16 no data |
front 17 Cells store energy in the form of what? | back 17 Carbohydrates. |
front 18 What is the respiration chemical equation? | back 18 6CH12O6 (Glucose) + 6O2 (Oxygen) - 6CO2 (Carbon Dioxide) + 6H2O (Water) + Energy. |
front 19 What do plants produce that animals use? | back 19 Oxygen. |
front 20 What do animals produce that plants use? | back 20 Carbon Dioxide. |
front 21 An energy releasing process that does not require oxygen. It provides energy for the cells without using oxygen. | back 21 Fermentation. |
front 22 Does fermentation release more or less energy than respiration? | back 22 Less. |
front 23 Nitrogen Cycle Notes! | back 23 no data |
front 24 Once the nitrogen gas has been fixed into nitrates and ammonia, it is absorbed by plants and moved through the food web as amino acids and protein. | back 24 Assimilation. |
front 25 When a living organism dies bacteria and fungi break down the tissue which produces ammonia. This ammonia will either be reabsorbed by a plant, dissolve into water, or go into the soil. | back 25 Decomposition. |
front 26 The ammonia that goes back into the soil from decomposition is nitrified by bacteria into nitrates and nitrites. This happens only in the presence of oxygen. These nitrates and nitrites can be absorbed by plants or stay in the soil. | back 26 Nitrification. |
front 27 The nitrates and nitrites that are left in the soil from nitrification are then consumed by denitrifying bacteria which convert the nitrates and nitrites back into nitrogen gas through a process thats without oxygen. This completes the cycle. | back 27 Denitrification. |
front 28 Fixing the Nitrogen Gas in the atmosphere into something that is usable by living things. This can happen in 3 ways. Atmospheric, Biologic, and Industrial. | back 28 Fixation. |
front 29 Makes up the majority of all nitrogen gas that is “fixed”. Bacteria on the roots of plants or in the soil take in the nitrogen gas between soil particles and transform the nitrogen gas into nitrates and ammonia | back 29 Biologic Fixation. |
front 30 The energy from lighting forces the nitrogen gas and oxygen gas in the atmosphere to bond, forming nitrates that fall to earth. | back 30 Atmospheric Fixation. |
front 31 This is a human-made procedure called Haber’s Process which combines nitrogen gas and hydrogen gas under pressure and heat to create ammonia. | back 31 Industrial Fixation. |
front 32 Exit Ticket! | back 32 no data |
front 33 What is one consequence of an algal bloom? | back 33 Depletion of oxygen levels in bodies of water. |
front 34 What is the role of the nitrifying bacteria? | back 34 Converting ammonia into nitrites and nitrates. |
front 35 Haber's Process. | back 35 Nitrogen combines with hydrogen and oxygen to form ammonia. |