Balancing and Predicting Chemical Reactions:
... 2. Aqueous nitric acid and calcium hydroxide solutions react to form water and aqueous calcium nitrate Word equation: nitric acid(aq) + calcium hydroxide(aq) water(l) + calcium nitrate(aq) Skeleton formula equation: HNO3(aq) + Ca(OH)2(aq) H2O(l) + Ca(NO3)2(aq) ...
... 2. Aqueous nitric acid and calcium hydroxide solutions react to form water and aqueous calcium nitrate Word equation: nitric acid(aq) + calcium hydroxide(aq) water(l) + calcium nitrate(aq) Skeleton formula equation: HNO3(aq) + Ca(OH)2(aq) H2O(l) + Ca(NO3)2(aq) ...
Protista, Fungi, and Plantae
... 17. If a tree is 100 feet tall, how does water reach the very top leaves? 18. Some stems are “modified”. Give examples of modified stems. (p.594) 19. What is transpiration? (p. 587) 20. What role do the stomata play in gas exchange? (p.587) Where are the stomata found? 21. Give examples of leaf adap ...
... 17. If a tree is 100 feet tall, how does water reach the very top leaves? 18. Some stems are “modified”. Give examples of modified stems. (p.594) 19. What is transpiration? (p. 587) 20. What role do the stomata play in gas exchange? (p.587) Where are the stomata found? 21. Give examples of leaf adap ...
general biology - Palomar College
... viruses, killing itself in the process, and liberating more viruses. Because viruses are not classic organisms, they do not respond to treatments such as antibiotics that are effective against organisms, like bacteria. ...
... viruses, killing itself in the process, and liberating more viruses. Because viruses are not classic organisms, they do not respond to treatments such as antibiotics that are effective against organisms, like bacteria. ...
4 The Chemical and Physical Environment
... • Oxygen uptake mechanisms: Animals only a few millimeters thick rely upon diffusion for oxygen uptake Larger animals use feathery gills with high surface area to absorb oxygen; mammals have lungs with enormous surface areas to take up oxygen Larger animals have circulatory systems that circulate ...
... • Oxygen uptake mechanisms: Animals only a few millimeters thick rely upon diffusion for oxygen uptake Larger animals use feathery gills with high surface area to absorb oxygen; mammals have lungs with enormous surface areas to take up oxygen Larger animals have circulatory systems that circulate ...
IGCSE SoW 2013
... Describe and explain the main reactions involved in the extraction of iron from iron ore (haematite), using coke, limestone and air in a blast furnace ...
... Describe and explain the main reactions involved in the extraction of iron from iron ore (haematite), using coke, limestone and air in a blast furnace ...
Introduction to Cellular and Molecular Biology (BIOL 190)
... Introduction to Cellular and Molecular Biology 2. Understand that catabolic pathways, like respiration and fermentation, release stored potential energy in organic compounds (i.e., food) to regenerate ATP from ADP + P. 3. Explain the principles of oxidation and reduction (i.e., redox) and know that ...
... Introduction to Cellular and Molecular Biology 2. Understand that catabolic pathways, like respiration and fermentation, release stored potential energy in organic compounds (i.e., food) to regenerate ATP from ADP + P. 3. Explain the principles of oxidation and reduction (i.e., redox) and know that ...
External respiration - Mount Carmel Academy
... Occurs when carbon dioxide or other sources of acid begin to accumulate in the blood and the pH starts to drop Different breathing pattern from the hyperpnea of exercise This blows off more carbon dioxide, which returns blood pH to normal ...
... Occurs when carbon dioxide or other sources of acid begin to accumulate in the blood and the pH starts to drop Different breathing pattern from the hyperpnea of exercise This blows off more carbon dioxide, which returns blood pH to normal ...
Chapter 9 - Cellular Respiration
... Several steps in glycolysis and the citric acid cycle are redox reactions in which dehydrogenase enzymes transfer electrons from substrates to NAD+, forming NADH. NADH passes these electrons to the electron transport chain. In the electron transport chain, the electrons move from molecule to m ...
... Several steps in glycolysis and the citric acid cycle are redox reactions in which dehydrogenase enzymes transfer electrons from substrates to NAD+, forming NADH. NADH passes these electrons to the electron transport chain. In the electron transport chain, the electrons move from molecule to m ...
Plants, Environment and Ecological Adaptations
... governed by the factors such as soil types, vegetation, terrain and amount of rain fall. Water moves through the soil by the action of capillary attraction and gravity. Vegetation tends to roughen the soil surface and allows the water to move into the soil, whereas in urban areas because of low infi ...
... governed by the factors such as soil types, vegetation, terrain and amount of rain fall. Water moves through the soil by the action of capillary attraction and gravity. Vegetation tends to roughen the soil surface and allows the water to move into the soil, whereas in urban areas because of low infi ...
biology 2402
... (Often, catabolic reactions occur in one compartment of a cell, for example, the mitochondria). (Synthetic reaction takes place in another location such as the cytosol or endoplasmic reticulum). Which reaction occur depend on which enzymes are active in a particular cell at a particular time. ATP (a ...
... (Often, catabolic reactions occur in one compartment of a cell, for example, the mitochondria). (Synthetic reaction takes place in another location such as the cytosol or endoplasmic reticulum). Which reaction occur depend on which enzymes are active in a particular cell at a particular time. ATP (a ...
Final Exam - Salinella
... (true) or F (false) in the space provided at the beginning of the statement. ________ 3.1 In insects, the circulatory system picks up oxygen from the tiny air sacs at the end of the tracheoles and carries the oxygen through the blood to all tissues. ________ 3.2 The body surface of an earthworm is k ...
... (true) or F (false) in the space provided at the beginning of the statement. ________ 3.1 In insects, the circulatory system picks up oxygen from the tiny air sacs at the end of the tracheoles and carries the oxygen through the blood to all tissues. ________ 3.2 The body surface of an earthworm is k ...
Name
... KEY CONCEPT Fermentation allows the production of a small amount of ATP without oxygen. When oxygen is not available in cells, fermentation takes place instead. Fermentation is an anaerobic process that allows glycolysis to continue, but does not produce ATP on its own. The main function of fermenta ...
... KEY CONCEPT Fermentation allows the production of a small amount of ATP without oxygen. When oxygen is not available in cells, fermentation takes place instead. Fermentation is an anaerobic process that allows glycolysis to continue, but does not produce ATP on its own. The main function of fermenta ...
Evolution & organisation of metabolic Pathways
... mixtures of proteins, lipids, carbohydrates: fixed composition Reserve(s) do complicate model & implications & testing Reasons to delineate reserve, distinct from structure • metabolic memory • biomass composition depends on growth rate • explanation of respiration patterns (freshly laid eggs don’t ...
... mixtures of proteins, lipids, carbohydrates: fixed composition Reserve(s) do complicate model & implications & testing Reasons to delineate reserve, distinct from structure • metabolic memory • biomass composition depends on growth rate • explanation of respiration patterns (freshly laid eggs don’t ...
Oxidized
... autotrophically, the formation of ATP is not enough – Reducing power (NADH) is also necessary – Reduced substances such as H2S are oxidized and the electrons eventually end up in the “quinone pool” of the photosynthetic membrane (Figure 13.17) ...
... autotrophically, the formation of ATP is not enough – Reducing power (NADH) is also necessary – Reduced substances such as H2S are oxidized and the electrons eventually end up in the “quinone pool” of the photosynthetic membrane (Figure 13.17) ...
Unit 8 Packet
... sulfate are the products. Calculate the mass of sodium sulfate produced when 15.5 g of sodium hydroxide are reacted with 46.7 g of sulfuric acid. [Hint: which unit is used in all stoichiometry reasoning?] ...
... sulfate are the products. Calculate the mass of sodium sulfate produced when 15.5 g of sodium hydroxide are reacted with 46.7 g of sulfuric acid. [Hint: which unit is used in all stoichiometry reasoning?] ...
Document
... d. Spores (n) germinate into a prothallus (n) which will produce eggs (n) in the archegonium and sperm (n) in the antheridium; they combine to form a zygote (2n); the zygote grows into a young sporophyte (2n); the mauture sporophyte of most ferns produce only one type of spore (homosporous- one spor ...
... d. Spores (n) germinate into a prothallus (n) which will produce eggs (n) in the archegonium and sperm (n) in the antheridium; they combine to form a zygote (2n); the zygote grows into a young sporophyte (2n); the mauture sporophyte of most ferns produce only one type of spore (homosporous- one spor ...
Instructor`s Guide
... epiglottis: A small piece of cartilage at the back of the tongue that keeps swallowed food and liquid from entering the trachea. expiratory neurons: Neurons that extend down the spinal cord to connect with other neurons to carry signals to the diaphragm and intercostal muscles. Expiratory neurons fi ...
... epiglottis: A small piece of cartilage at the back of the tongue that keeps swallowed food and liquid from entering the trachea. expiratory neurons: Neurons that extend down the spinal cord to connect with other neurons to carry signals to the diaphragm and intercostal muscles. Expiratory neurons fi ...
Plants
... Leaves alternate or closely fascicled on determinate or indeterminate short shoots; simple and linear to needle-like Pollen borne on strobili (look like cones) with many spirally arranged scales; 2 pollen sacs per scale, on underside of scale (abaxial) Ovules borne on cones (scale/bract complex) woo ...
... Leaves alternate or closely fascicled on determinate or indeterminate short shoots; simple and linear to needle-like Pollen borne on strobili (look like cones) with many spirally arranged scales; 2 pollen sacs per scale, on underside of scale (abaxial) Ovules borne on cones (scale/bract complex) woo ...
Chap 7 PP
... only ATP (rather than food) as a direct source of energy. The energy contained in food—glucose in the example—is transferred to ATP in three major steps: glycolysis, the Krebs cycle, and the electron transport chain. Though glycolysis and the Krebs cycle contribute only small amounts of ATP directly ...
... only ATP (rather than food) as a direct source of energy. The energy contained in food—glucose in the example—is transferred to ATP in three major steps: glycolysis, the Krebs cycle, and the electron transport chain. Though glycolysis and the Krebs cycle contribute only small amounts of ATP directly ...
Photosynthesis
Photosynthesis is a process used by plants and other organisms to convert light energy, normally from the Sun, into chemical energy that can be later released to fuel the organisms' activities. This chemical energy is stored in carbohydrate molecules, such as sugars, which are synthesized from carbon dioxide and water – hence the name photosynthesis, from the Greek φῶς, phōs, ""light"", and σύνθεσις, synthesis, ""putting together"". In most cases, oxygen is also released as a waste product. Most plants, most algae, and cyanobacteria perform photosynthesis; such organisms are called photoautotrophs. Photosynthesis maintains atmospheric oxygen levels and supplies all of the organic compounds and most of the energy necessary for life on Earth.Although photosynthesis is performed differently by different species, the process always begins when energy from light is absorbed by proteins called reaction centres that contain green chlorophyll pigments. In plants, these proteins are held inside organelles called chloroplasts, which are most abundant in leaf cells, while in bacteria they are embedded in the plasma membrane. In these light-dependent reactions, some energy is used to strip electrons from suitable substances, such as water, producing oxygen gas. Furthermore, two further compounds are generated: reduced nicotinamide adenine dinucleotide phosphate (NADPH) and adenosine triphosphate (ATP), the ""energy currency"" of cells.In plants, algae and cyanobacteria, sugars are produced by a subsequent sequence of light-independent reactions called the Calvin cycle, but some bacteria use different mechanisms, such as the reverse Krebs cycle. In the Calvin cycle, atmospheric carbon dioxide is incorporated into already existing organic carbon compounds, such as ribulose bisphosphate (RuBP). Using the ATP and NADPH produced by the light-dependent reactions, the resulting compounds are then reduced and removed to form further carbohydrates, such as glucose.The first photosynthetic organisms probably evolved early in the evolutionary history of life and most likely used reducing agents, such as hydrogen or hydrogen sulfide, as sources of electrons, rather than water. Cyanobacteria appeared later; the excess oxygen they produced contributed to the oxygen catastrophe, which rendered the evolution of complex life possible. Today, the average rate of energy capture by photosynthesis globally is approximately 130 terawatts, which is about three times the current power consumption of human civilization.Photosynthetic organisms also convert around 100–115 thousand million metric tonnes of carbon into biomass per year.