Light Dependent Reactions The light dependent reaction of photosynthesis involves the transfer of sunlight energy into two things: The production of ATP Reduction of coenzyme NADP to NADPH NADP – Nicotinamide adenine dinucleotide phosphate NADPH – Reduced NADP The energy from sunlight is used to excite an electron‚ within a primary pigment‚ to a higher energy level. The excited electron is then donated to an electron acceptor leaving the chlorophyll molecule oxidised and reducing the acceptor
Premium Photosynthesis
49 is the max amount of viewers available in slide - if you aren’t adding please allow others to Just to have some clarity between the answers‚ questions‚ etc. Questions in BLACK Answers in BLUE Side Questions in RED Explanations/Answers to side questions in ORANGE Other comments in ANY COLOR Unanswered study questions in GREEN Study Questions for Lectures 1-5 1. Give 2 definitions of “species” and explain the strengths and weaknesses of each. Morphological “species”: individuals
Premium Species Population ecology
IB Home Standard Level Higher Level Options Additional Resources 8.2 Photosynthesis 8.2.1 Draw and label a diagram showing the structure of a chloroplast as seen in an electron micrograph 2D Representation 3D Representation Electron Micrograph 8.2.2 State that photosynthesis consists of the light-dependent and light-independent reactions Photosynthesis is a two-step process: 1. The light dependent reactions convert the light energy into chemical energy 2. The light
Premium Photosynthesis
1. Learned means having much knowledge and well – informed. Innate means already known or originating in. 2. Habituation – a decrease in response to a stimulus after repeated presentations a. Estivation – animals trying to escape things happening in their environment b. Imprinting – learning occurring at a particular age or a particular life stage that is rapid c. Hibernation – refers to a season of heterothermy that is characterized by low body temperature‚ slow breathing and heart rate‚ and low
Premium Metabolism Carbon dioxide Bacteria
percolation/infiltration d. runoff e. evapotranspiration f. surface water g. aquifer/ground water h. Biota waste i. Autotrophs j. Heterotrophs k. light energy 2. Carbon/Oxygen cycle On the cycle diagram label the following: a. Carbon Dioxide (CO2) b. Carbonate (CO3)2- c. Oxygen (O2) d. Fossil Fuels e. Photosynthesis f. Respiration g. Combustion h. Decomposition i. Biota waste j. Methane
Premium Oxygen Carbon dioxide Nitrogen
consumers that derive nutrition from non-living organic matter CHEMISTRY BIOCHEMISTRY Biological Macromolecule Elements it Contains Monomer Subunit Carbohydrates Ex. Sugars‚ starch‚ cellulose Carbon‚ hydrogen‚ oxygen Monomer- Monosaccharide Lipids ex. Fats‚ oils‚ waxes‚ phospholipids and cholesterol Carbon‚ oxygen‚ hydrogen one glycerol & fatty acids Nucleic Acids
Premium DNA DNA replication
an inverse relationship‚ they are opposite of each other. Photosynthesis is the process by which carbon dioxide is converted into compounds from the sunlight. The most frequent compound being glucose (sugar). Photosynthesis occurs in plants‚ algae‚ and some bacteria. Editorial Board (2014). Cellular respiration‚ in contrast takes the glucose (sugar) and other compounds oxidizing them to created carbon dioxide. Each cycle depends on the other in order for the completion to take place. The complete
Premium Metabolism Cellular respiration Adenosine triphosphate
(GHGs) like carbon dioxide‚ methane and nitrous oxide through anthropogenic activities. These gases trap the sunlight and increase the earth’s overall temperature. The gases responsible for the global warming are known as Greenhouse Gases (GHGs)‚ which are comprised of Carbon Dioxide CO2‚ Chlorofluorocarbons CFCs‚ Methane CH4‚ Nitrous Oxide N2O and water vapors. These gases are produced by a number of anthropogenic activities. CO2 is mainly produced during the combustion of wastes‚ carbon‚ wood and
Premium Greenhouse gas Carbon dioxide Global warming
plants and other organisms to convert the light energy captured from the sun into chemical energy that can be used to fuel the organism’s activities. It occurs in plants‚ algae‚ and many species of bacteria‚ but not archaea. Photosynthesis uses carbon dioxide and water‚ releasing oxygen as a waste product. It is vital for all aerobic life on Earth. In addition to maintaining normal levels of oxygen in the atmosphere‚ photosynthesis is the source of energy for nearly all life on Earth. The average
Premium Photosynthesis
Labset Five Worksheet 1. List five environments where you are likely to find microbial growth: Lakes‚ soil‚ oceans‚ tundras‚ deserts 2. How do microbes contribute to soil fertility? The decomposition that microbes take part in help release mineral nutrients‚ such as potassium and nitrogen‚ from dead organic matter and allowing primary producers the nutritional access. They also produce CO2 and CH4 to release into the soil and atmosphere. 3. Describe the growth you observed in each of your
Premium Fungus Bacteria Organism