bonomarzo.info

What are the steps for photosynthesis in order


Answer . one foot in front of the other. watch 'step up' the movie!. i never really thought about this.. but 1: shift weight onto one foot 2: bring knee up on you other foot, letting below your knee hang loose 3: straighten from your knee to your ankle and shift your weight forward. 4: shift weight onto the foot you just put down and repeat with other foot... AND OMG! you've just stepped.. kinda awkwardly though..

Photosynthesis ( photo = light and synthesis = to make ) isthe process plants use to change carbon dioxide and water intosugar using sunlight. This sugar, glucose, is their food, and theprocess gives off oxygen. Photosynthesis is the conversion of light energy into chemicalenergy by living organisms. The raw materials are carbon dioxideand water. The energy source is sunlight, and the end-productsinclude glucose and oxygen. It is arguably the most importantbiochemical pathway, since nearly all life depends on it. It is acomplex process occurring in higher plants, phytoplankton, algae,as well as bacteria such as cyanobacteria. Photosynthetic organismsare also referred to as autotrophs . Photosynthesis is the process by which plants, some bacteria, andsome protistans use the energy from sunlight to produce sugar,which cellular respiration converts into ATP, the "fuel" used byall living things. The conversion of unusable sunlight energy intousable chemical energy, is associated with the actions of the greenpigment chlorophyll. Most of the time, the photosynthetic processuses water and releases the oxygen that we absolutely must have tostay alive. We can write the overall reaction of this process as: 6H2O + 6CO2 + light → C6H12O6+ 6O2 6 water molecules + 6 carbon dioxide molecules + light is convertedinto 1 glucose molecule and 6 oxygen molecules Photosynthesis is the process by which plants and other thingsmake food

The second step in the Photosynthesis is the Calvin Cycle. It is also known as the Light-Independant Reactions or the Dark Reactions. :3

1st step is Glycolisis 2nd step is Calvin cycle 3rd step is electron transport chain (ETC)

Sunlight strikes the leaf. Chlorophyll captures light energy.Plants use energy in sunlight to make food.

The energy from the sun, raises an energy level in the chlorophyll molecule, causing electrons to leave the molecule and travel along the electron transport chain (ETC) in a series of oxidation and reductions. In doing so it releases energy converting ADP+Pi into ATP. Photolysis (splitting of water) occurs, and the electrons produced, replace those lost. This is the Light Dependant stage as it relies on light energy

Photosynthesis 1. light- dependent reaction 2. whater and energy from the sun 3. chlorophyll ATP (adenosine triphosphate) 4. carbon fixation reation 5. carbohydrates balance chemical equation for photosynthesis 6CO 2 + 6H 2 O + light energy >>> C 6 H 12 O 6 + 6O 2 chlorophyll

the leaves receive sunlight, convert it to energy and then make glucose (CO2 + H20 + [Energy] => C6H12O6 + O2)

The Light Dependent process and then the Light Independent process (known as the Calvin Cycle).

ATP synthase allows H+ ions to pass through the thylakoid membrane pigments in photosystem II absorb light

It takes in sunlight through the leaves and changes it into Glucose. This Glucose is then changed into lots of different things which the plant needs. Such as protein. Lipids etc.

http://en.wikipedia.org/wiki/Photosynthesis Photosynthesis is a metabolic pathway that converts light energy into chemical energy . Its initial substrates are carbon dioxide and water ; the energy source is sunlight ( electromagnetic radiation ); and the end-products are oxygen and (energy-containing) carbohydrates , such as sucrose , glucose or starch . This process is one of the most important biochemical pathways, [1] since nearly all life on Earth either directly or indirectly depends on it as a source of energy. It is a complex process occurring in plants , algae , as well as bacteria such as cyanobacteria . Photosynthetic organisms are also referred to as photoautotrophs . [1] Photosynthesis uses light energy and carbon dioxide to make triose phosphates (G3P). G3P is generally considered the first end-product of photosynthesis. [ citation needed ] It can be used as a source of metabolic energy, or combined and rearranged to form monosaccharide or disaccharide sugars, such as glucose or sucrose , respectively, which can be transported to other cells, stored as insoluble polysaccharides such as starch , or converted to structural carbohydrates, such as cellulose or glucans . A commonly used slightly simplified equation for photosynthesis is:. 6 CO 2(g) + 12 H 2 O (l) + photons → C 6 H 12 O 6 (aq) + 6 O 2(g) + 6 H 2 O (l) carbon dioxide + water + light energy → glucose + oxygen + water . The equation is often presented in introductory chemistry texts in an even more simplified form as: [2] . 6 CO 2(g) + 6 H 2 O (l) + photons → C 6 H 12 O 6(aq) + 6 O 2(g) . Photosynthesis occurs in two stages. In the first stage, light-dependent reactions or photosynthetic reactions (also called the Light Reactions ) capture the energy of light and use it to make high-energy molecules. During the second stage, the light-independent reactions (also called the Calvin-Benson Cycle , and formerly known as the Dark Reactions ) use the high-energy molecules to capture and chemically reduce carbon dioxide (CO 2 ) (also called carbon fixation ) to make the precursors of carbohydrates . In the light reactions , one molecule of the pigment chlorophyll absorbs one photon and loses one electron . This electron is passed to a modified form of chlorophyll called pheophytin , which passes the electron to a quinone molecule, allowing the start of a flow of electrons down an electron transport chain that leads to the ultimate reduction of NADP to NADPH . In addition, this creates a proton gradient across the chloroplast membrane ; its dissipation is used by ATP Synthase for the concomitant synthesis of ATP . The chlorophyll molecule regains the lost electron from a water molecule through a process called photolysis , which releases a dioxygen (O 2 ) molecule. In the Light-independent or dark reactions the enzyme RuBisCO captures CO 2 from the atmosphere and in a process that requires the newly formed NADPH, called the Calvin-Benson Cycle, releases three-carbon sugars, which are later combined to form sucrose and starch. Photosynthesis may simply be defined as the conversion of light energy into chemical energy by living organisms . It is affected by its surroundings, and the rate of photosynthesis is affected by the concentration of carbon dioxide in the air, the light intensity, and the temperature . Photosynthesis uses only 1% of the entire electromagnetic spectrum, and 2% of the visible spectrum. [ citation needed ] It has been estimated that the productivity of photosynthesis is 115 petagrams (Pg, equals 10 15 grams or 10 9 metric tons). In plants Most plants are photoautotrophs , which means that they are able to synthesize food directly from inorganic compounds using light energy - for example from the sun, instead of eating other organisms or relying on nutrients derived from them. This is distinct from chemoautotrophs that do not depend on light energy, but use energy from inorganic compounds.. 6 CO 2 + 12 H 2 O → C 6 H 12 O 6 + 6 O 2 + 6 H 2 O . The energy for photosynthesis ultimately comes from absorbed photons and involves a reducing agent , which is water in the case of plants, releasing oxygen as product . The light energy is converted to chemical energy (known as light-dependent reactions ), in the form of ATP and NADPH , which are used for synthetic reactions in photoautotrophs. The overall equation for the light-dependent reactions under the conditions of non-cyclic electron flow in green plants is: [3] . 2 H 2 O + 2 NADP + + 2 ADP + 2 P i + light → 2 NADPH + 2 H + + 2 ATP + O 2 . Most notably, plants use the chemical energy to fix carbon dioxide into carbohydrates and other organic compounds through light-independent reactions . The overall equation for carbon fixation (sometimes referred to as carbon reduction) in green plants is: [3] . 3 CO 2 + 9 ATP + 6 NADPH + 6 H + → C 3 H 6 O 3 -phosphate + 9 ADP + 8 P i + 6 NADP + + 3 H 2 O . To be more specific, carbon fixation produces an intermediate product, which is then converted to the final carbohydrate products. The carbon skeletons produced by photosynthesis are then variously used to form other organic compounds, such as the building material cellulose , as precursors for lipid and amino acid biosynthesis, or as a fuel in cellular respiration . The latter occurs not only in plants but also in animals when the energy from plants gets passed through a food chain . Organisms dependent on photosynthetic and chemosynthetic organisms are called heterotrophs . In general outline, cellular respiration is the opposite of photosynthesis: Glucose and other compounds are oxidized to produce carbon dioxide, water, and chemical energy. However, the two processes take place through a different sequence of chemical reactions and in different cellular compartments. Plants absorb light primarily using the pigment chlorophyll , which is the reason that most plants have a green color. The function of chlorophyll is often supported by other accessory pigments such as carotenes and xanthophylls . Both chlorophyll and accessory pigments are contained in organelles (compartments within the cell ) called chloroplasts . Although all cells in the green parts of a plant have chloroplasts, most of the energy is captured in the leaves . The cells in the interior tissues of a leaf, called the mesophyll , can contain between 450,000 and 800,000 chloroplasts for every square millimeter of leaf. The surface of the leaf is uniformly coated with a water-resistant waxy cuticle that protects the leaf from excessive evaporation of water and decreases the absorption of ultraviolet or blue light to reduce heating . The transparent epidermis layer allows light to pass through to the palisade mesophyll cells where most of the photosynthesis takes place. Plants convert light into chemical energy with a maximum photosynthetic efficiency of approximately 6%. [4] [5] [6] By comparison solar panels convert light into electric energy at a photosynthetic efficiency of approximately 10-20%. Actual plant's photosynthetic efficiency varies with the frequency of the light being converted, light intensity, temperature and proportion of CO 2 in atmosphere. In algae and bacteria Algae come in multiple forms from multicellular organisms like kelp , to microscopic , single-cell organisms . Although they are not as complex as land plants, the biochemical process of photosynthesis is the same. Very much like plants, algae have chloroplasts and chlorophyll, but various accessory pigments are present in some algae such as phycocyanin , carotenes , and xanthophylls in green algae and phycoerythrin in red algae (rhodophytes), resulting in a wide variety of colors. Brown algae and diatoms contain fucoxanthol as their primary pigment. All algae produce oxygen, and many are autotrophic . However, some are heterotrophic, relying on materials produced by other organisms. For example, in coral reefs , there is a mutualistic relationship between zooxanthellae and the coral polyps . [7] Photosynthetic bacteria do not have chloroplasts (or any membrane-bound organelles ). Instead, photosynthesis takes place directly within the cell. Cyanobacteria contain thylakoid membranes very similar to those in chloroplasts and are the only prokaryotes that perform oxygen-generating photosynthesis. In fact, chloroplasts are now considered to have evolved from an endosymbiotic bacterium, which was also an ancestor of cyanobacterium. The other photosynthetic bacteria have a variety of different pigments, called bacteriochlorophylls , and use electron donors different from water and thus do not produce oxygen. Some bacteria, such as Chromatium , oxidize hydrogen sulfide instead of water for photosynthesis, producing sulfur as waste. Other photosynthetic bacteria oxidize ferrous iron to ferric iron , [8] others nitrite to nitrate , [9] and still others use arsenites , producing arsenates . [10] All photosynthesizing organisms must be in the photic (light-receiving) zone, except for those near hydrothermal vents which give faint light. http://en.wikipedia.org/wiki/Photosynthesis Photosynthesis is a metabolic pathway that converts light energy into chemical energy . Its initial substrates are carbon dioxide and water ; the energy source is sunlight ( electromagnetic radiation ); and the end-products are oxygen and (energy-containing) carbohydrates , such as sucrose , glucose or starch . This process is one of the most important biochemical pathways, [1] since nearly all life on Earth either directly or indirectly depends on it as a source of energy. It is a complex process occurring in plants , algae , as well as bacteria such as cyanobacteria . Photosynthetic organisms are also referred to as photoautotrophs . [1] Photosynthesis uses light energy and carbon dioxide to make triose phosphates (G3P). G3P is generally considered the first end-product of photosynthesis. [ citation needed ] It can be used as a source of metabolic energy, or combined and rearranged to form monosaccharide or disaccharide sugars, such as glucose or sucrose , respectively, which can be transported to other cells, stored as insoluble polysaccharides such as starch , or converted to structural carbohydrates, such as cellulose or glucans . A commonly used slightly simplified equation for photosynthesis is:. 6 CO 2(g) + 12 H 2 O (l) + photons → C 6 H 12 O 6 (aq) + 6 O 2(g) + 6 H 2 O (l) carbon dioxide + water + light energy → glucose + oxygen + water . The equation is often presented in introductory chemistry texts in an even more simplified form as: [2] . 6 CO 2(g) + 6 H 2 O (l) + photons → C 6 H 12 O 6(aq) + 6 O 2(g) . Photosynthesis occurs in two stages. In the first stage, light-dependent reactions or photosynthetic reactions (also called the Light Reactions ) capture the energy of light and use it to make high-energy molecules. During the second stage, the light-independent reactions (also called the Calvin-Benson Cycle , and formerly known as the Dark Reactions ) use the high-energy molecules to capture and chemically reduce carbon dioxide (CO 2 ) (also called carbon fixation ) to make the precursors of carbohydrates . In the light reactions , one molecule of the pigment chlorophyll absorbs one photon and loses one electron . This electron is passed to a modified form of chlorophyll called pheophytin , which passes the electron to a quinone molecule, allowing the start of a flow of electrons down an electron transport chain that leads to the ultimate reduction of NADP to NADPH . In addition, this creates a proton gradient across the chloroplast membrane ; its dissipation is used by ATP Synthase for the concomitant synthesis of ATP . The chlorophyll molecule regains the lost electron from a water molecule through a process called photolysis , which releases a dioxygen (O 2 ) molecule. In the Light-independent or dark reactions the enzyme RuBisCO captures CO 2 from the atmosphere and in a process that requires the newly formed NADPH, called the Calvin-Benson Cycle, releases three-carbon sugars, which are later combined to form sucrose and starch. Photosynthesis may simply be defined as the conversion of light energy into chemical energy by living organisms . It is affected by its surroundings, and the rate of photosynthesis is affected by the concentration of carbon dioxide in the air, the light intensity, and the temperature . Photosynthesis uses only 1% of the entire electromagnetic spectrum, and 2% of the visible spectrum. [ citation needed ] It has been estimated that the productivity of photosynthesis is 115 petagrams (Pg, equals 10 15 grams or 10 9 metric tons). In plants Most plants are photoautotrophs , which means that they are able to synthesize food directly from inorganic compounds using light energy - for example from the sun, instead of eating other organisms or relying on nutrients derived from them. This is distinct from chemoautotrophs that do not depend on light energy, but use energy from inorganic compounds.. 6 CO 2 + 12 H 2 O → C 6 H 12 O 6 + 6 O 2 + 6 H 2 O . The energy for photosynthesis ultimately comes from absorbed photons and involves a reducing agent , which is water in the case of plants, releasing oxygen as product . The light energy is converted to chemical energy (known as light-dependent reactions ), in the form of ATP and NADPH , which are used for synthetic reactions in photoautotrophs. The overall equation for the light-dependent reactions under the conditions of non-cyclic electron flow in green plants is: [3] . 2 H 2 O + 2 NADP + + 2 ADP + 2 P i + light → 2 NADPH + 2 H + + 2 ATP + O 2 . Most notably, plants use the chemical energy to fix carbon dioxide into carbohydrates and other organic compounds through light-independent reactions . The overall equation for carbon fixation (sometimes referred to as carbon reduction) in green plants is: [3] . 3 CO 2 + 9 ATP + 6 NADPH + 6 H + → C 3 H 6 O 3 -phosphate + 9 ADP + 8 P i + 6 NADP + + 3 H 2 O . To be more specific, carbon fixation produces an intermediate product, which is then converted to the final carbohydrate products. The carbon skeletons produced by photosynthesis are then variously used to form other organic compounds, such as the building material cellulose , as precursors for lipid and amino acid biosynthesis, or as a fuel in cellular respiration . The latter occurs not only in plants but also in animals when the energy from plants gets passed through a food chain . Organisms dependent on photosynthetic and chemosynthetic organisms are called heterotrophs . In general outline, cellular respiration is the opposite of photosynthesis: Glucose and other compounds are oxidized to produce carbon dioxide, water, and chemical energy. However, the two processes take place through a different sequence of chemical reactions and in different cellular compartments. Plants absorb light primarily using the pigment chlorophyll , which is the reason that most plants have a green color. The function of chlorophyll is often supported by other accessory pigments such as carotenes and xanthophylls . Both chlorophyll and accessory pigments are contained in organelles (compartments within the cell ) called chloroplasts . Although all cells in the green parts of a plant have chloroplasts, most of the energy is captured in the leaves . The cells in the interior tissues of a leaf, called the mesophyll , can contain between 450,000 and 800,000 chloroplasts for every square millimeter of leaf. The surface of the leaf is uniformly coated with a water-resistant waxy cuticle that protects the leaf from excessive evaporation of water and decreases the absorption of ultraviolet or blue light to reduce heating . The transparent epidermis layer allows light to pass through to the palisade mesophyll cells where most of the photosynthesis takes place. Plants convert light into chemical energy with a maximum photosynthetic efficiency of approximately 6%. [4] [5] [6] By comparison solar panels convert light into electric energy at a photosynthetic efficiency of approximately 10-20%. Actual plant's photosynthetic efficiency varies with the frequency of the light being converted, light intensity, temperature and proportion of CO 2 in atmosphere. In algae and bacteria Algae come in multiple forms from multicellular organisms like kelp , to microscopic , single-cell organisms . Although they are not as complex as land plants, the biochemical process of photosynthesis is the same. Very much like plants, algae have chloroplasts and chlorophyll, but various accessory pigments are present in some algae such as phycocyanin , carotenes , and xanthophylls in green algae and phycoerythrin in red algae (rhodophytes), resulting in a wide variety of colors. Brown algae and diatoms contain fucoxanthol as their primary pigment. All algae produce oxygen, and many are autotrophic . However, some are heterotrophic, relying on materials produced by other organisms. For example, in coral reefs , there is a mutualistic relationship between zooxanthellae and the coral polyps . [7] Photosynthetic bacteria do not have chloroplasts (or any membrane-bound organelles ). Instead, photosynthesis takes place directly within the cell. Cyanobacteria contain thylakoid membranes very similar to those in chloroplasts and are the only prokaryotes that perform oxygen-generating photosynthesis. In fact, chloroplasts are now considered to have evolved from an endosymbiotic bacterium, which was also an ancestor of cyanobacterium. The other photosynthetic bacteria have a variety of different pigments, called bacteriochlorophylls , and use electron donors different from water and thus do not produce oxygen. Some bacteria, such as Chromatium , oxidize hydrogen sulfide instead of water for photosynthesis, producing sulfur as waste. Other photosynthetic bacteria oxidize ferrous iron to ferric iron , [8] others nitrite to nitrate , [9] and still others use arsenites , producing arsenates . [10] All photosynthesizing organisms must be in the photic (light-receiving) zone, except for those near hydrothermal vents which give faint light.

1. Water molecules are being struck by light in Photosystem 2 (PSI) (Also, the reason that 2 comes first is because that is the order in which they were discovered), therefore, the H + ions are being separated from Oxygen atoms. The Oxygen atoms diffuse out of the thylakoid, out of the chloroplast, and eventually, out of the leaf [which is why we are dependent on plants because they give us O 2 while we give them CO 2 (Carbon Cycle). 2. The free electrons that were separated from the water molecule are 'bounced' to PS I. The H + ions go to the lumen. 3. Light strikes PSI this time and powers the reaction for NADP + + electrons + energy = NADPH. NADPH is one form of energy that powers the Calvin Cycle. 4. The H+ ions that were in the lumen travel to the ATP Synthase to help convert ADP to ATP. ATP is the other form of energy that powers the Calvin Cycle. End Results: - Oxygen is released as waste - ATP and NADPH go on to the next step (Calvin Cycle) An analogy to help understand what NADPH and ATP are is like cell phones. When they don't have energy, they are dead, so then, they need to be charged again, and then they will have energy (energy carriers). So, 5 easy steps to summarize 1. Solar energy is absorbed by chlorophyll in PS II. 2. The energy splits water to oxygen gas, hydrogen ions (H + ) and free electrons. 3. Electrons travel to PS I which then converts NADP + to NADPH. 4. The hydrogen ions move through the ATP Synthase. 5. ATP Synthase + H + ions convert ADP to ATP. .

First step is the light reaction. Photosystem 2 absorbing light energy is the first step

During the first step of photosynthesis, the chloroplasts (which give plants their green color) capture the energy from the sunlight. In the second step, the cell uses the captured energy (ATP) to produce sugars in the form of glucose.

The second step of photosynthesis requires carbon dioxide (CO2) and several enzymes to catalyze a complex series of chemical reactions. The temporary energy storage compounds from the first step provide energy to combine carbon dioxide (CO2) with larger molecules to form glucose: a carbohydrate. Glucose can then leave the chloroplast to be used as energy for the cell. Glucose can also be combined in different ways to make other carbohydrates such as sucrose (table sugar), starch (long-term storage sugar), or cellulose (insoluble fiber).

The light dependent reactions. Here's a simply visual to show what goes on within the light dependent reactions. [related links].

CO 2 +H 2 O---Solar Energy----> O 2 +(CH 2 O) x . That is the formula of photosynthesis.

the steps ton phpotosynisiths arwe simple give ur palant lots of water sun and itill grow

The light energy absorbed by chlorophyll is used to split water (H 2 O) into hydrogen (H) and oxygen (O). The hydrogen is then combined with carbon dioxide (CO 2 ) from the air surrounding the plant to make sugar (C 6 H 12 O 6 ). Oxygen is given off as a byproduct. Hope this helped.

well it depends. if your doing a back handspring step out then you do a back handspring but instead of landing with your legs together, land with them stepping out. like your walking. one after another.

Photosynthesis is the process plants and other organisms use toconvert light energy into chemical energy that is later released tofuel the organisms' functions. The steps of photosynthesis are; 1,the chlorophyll traps sunlight in the leaves. 2, the sunlight givesenergy to the plant to start making food. 3, the roots sucknutrients to the leaves. 4, the leaves mix carbon dioxide, thenutrients and water to make sugar. 5, the plants throw out waste,or oxygen.

Not all steps in photosynthesis occur in or need sunlight. It isonly needed in the light reaction phase where ATP and NADPH need tobe produced.

the two stages are the light dependent variable reactions and the light dependent reactions or calvin cycle

You Get Photosynthesis In Plants..Basicly What Happens Is That The Leaves Of A Plant Absorb Light.They Then Use The Light To Get Glucose And Oxygen As Waste Products.They Store the glucose and The Plants Release The Oxygen Into The Air For Us To Breathe

Light Dependent Reactions -light absorbed -photolysis -split water - H2O à O + 2H + + 2e - -electrons move down Electron Transport Chain, energy released -H + molecules in thylakoid space -ferrodoxin transfers electrons to NADPH+ -chemiosmosis: H+ moves through concentration gradient -ATP synthase: spinning . Reactants . Products . Light Energy . NADPH . H 2 O . ATP . O 2 (waste) .

During photosynthesis, carbon dioxide and water are used to synthesize sugars. It occurs with the help of the radiant energy from the sun which is absorbed by the chlorophyll of the green plants. There are two main stages- light reaction and dark reaction.

O.K, here's photosynthesis in a nutshell. (Haha get it?Photosynthesis? Plants? Nutshell?......never mind.....) Step 1) So, the sun's rays shine on plants, which absorb it's rays, mostlyred and blue wavelengths. Step 2) In plants, special cell structures, called chloroplasts absorb thelight from the sun. The sun's energy molecules are moved, andconverted in an area called a stomata . Step 3) Chloroplasts are responsible for the production of chlorophyll (thestuff that makes plants green). Chlorophyll, along with water, andcarbon-dioxide are used to manufacture the plant's food, a simplesugar called glucose. As glucose is produced, the plant also makesoxygen, which is released back into the atmosphere afterphotosynthesis is over. Well, that's pretty much it, hope this helped!!!!

All plants that produce their own food, but a mushroom cannot produce their own food.

The light reaction stage of photosynthesis. Photons of light are used to free electrons from chlorophyll in order to furnish the H+ gradient needed for ATP production in chemiosmosis.

diffusion: - the movement of molecules from high to low concentrations. carbon dioxide is in higher concentration outside the leaf than inside so it DIFFUSES into the leaf THROUGH THE STOMATA and moves through the air spaces diffusing into the mesophyll cells for photosynthesis.

the Calvin cycle. it is when the ATP and NADH are used up to form PGAL. Another name for this is the dark reaction.

green plants take sunlight and convert it into sugars to make food or energy Carbon dioxide and water use the sun's energy to produce glucose (sugar) and oxygen. Glucose is in many things that humans and animals eat. An example of what glucose can be found in is a vegetable. And oxygen is what we breathe.

Photosythesis is a process that happens in all plants and is used to make the plants food and here are the steps .Step 1 starts with a healthy green leaf full of chlorapyll,step 2 the plant takes in water from the roots to the xylem up to the leaf,step 3 the plant takes in the suns energy to have energy it self i am unsure about the next answers but here is what i think they are well never mind i dont know by the way this was writen by a 6th grader that is studing this piece of info thanks for reading please read another fact of mine ZOO GIRL.

The light-dependent stage. This is where light is absorbed by chlorophyll - the green pigment in plants- and water is split into Hydrogen and Oxygen. Energy is used to make ATP -Adenosine Tri-Phosphate- from ADP - Adenosine Di-Phosphate- which is called Photophosphorylation. Hydrogen combines with a hydrogen acceptor and Oxygen is released from the leaf. - Hope this helped :)

1 . First the chlorophyll (the chemical that makes plants leaves green and traps sunlight) traps the sunlight in the leaves. (The sunlight provides energy for the plants.) 2. Next the sunlight gives the plant energy to start the food-making process. 3. Then the roots suck nutrients up to the leaves and then the leaves mix carbon dioxide, the nutrients and water to make their food. (sugar) 4. Finally they throw out their waste (oxygen).

this is were yhu blend in with something eles like ex:Lizard can blend in to things when in gets frihten.

There are two different types of reactions that occur in order for photosynthesis to take place: Light dependent reactions take energy from the sun to increase the energy of electrons inside the photosystems in the thylakoid membranes so that they can be utilized by NADP+ in becoming NADPH, which is used in the light independent reactions Light independent reactions occur in the stroma, and are referred to as the Calvin benson cycle, where RuBP uses the enzyme rubisco to form PGA, which is transferred into PGAL, which, because it has 6 carbons, can be transformed into 1 glucose molecule, thus completing photosynthesis.

Water (H 2 0) is split into 6O 2, 24H + , and 24e - .

Four steps of photosynthesis: 1. Light absorption via chlorophyll in the chloroplast and electrons comes from water producing oxygen 2. Electron transport - NADPH is formed 3. Generate ATP 4. Convert carbon dioxide into carbohydrates

Photosynthesis is the process where by green plants prepare their own food with THE aid of carbon dioxide, sunlight ,water.this will lead to the production of oxygen and glucose(simple sugar). Equation: 12H 2 O (Water) + 6CO 2 (Carbon Dioxide) + Light Energy = 6O 2 (Oxygen) + 6H 2 O (water) + C 6 H 12 O 6 (Glucose)

inside each leaf cell are tiny green structures called chloroplasts (KLOR uh plasts). the green color comes from a substance called chlorophyll (KLOR uh fil). chlorophyll captures the energy in sunlight. Photosynthesis is the process which plants use to produce their own food because they can't just get up and hunt their food like animals. In a plant cell there are little sacks called chloroplast. Inside is where photosynthesis is made. The roots of the plant will suck in water and nutrients in the ground, while the leaves absorb sunlight. Water+Nutrients+Sunlight=Photosynthesis/Food.

The whole process of photosynthesis is not divided into 3, but into 2 steps - light and dark reactions.The dark reactions are also known as the dark phase of photosynthesis and this dark phase is divided into 3 steps.Actually the dark phase is the Calvin cycle which is composed of these 3 major steps: 1. Carbon (or Carbon Dioxide - CO 2 ) fixation 2. Reduction 3. Regeneration (of Ribulose)

Then autotrophic species would not be able to survive. There would be a collapse in the food chain of every habitat and a possible mass extinction. Another possibility is that plants would have evolved to do chemosynthesis, another autotrophic strategy that is used by plants in the deep ocean where light is not available.

People cannot perform photosynthesis, in Autumn when tree leaves change colors that is what photosynthesis is. In Autumn, the chlorophyll pigments break down and reveal the presence of accessory pigments.

People cannot photosynthesis... in Autumn when tree leaves turn different colors so that is photosynthesis (In Autumn, the chlorophyll pigments break down and reveal the presence of accessory pigments)

The two reactants in photosynthesis are water (H2O) and light. The products of photosynthesis are oxygen (O2), NADPH and ATP. These then cycle and become reactants in the Calvin cycle.

A step is an advance or movement made from one foot to the other,or, by extension, a small distance.

It is a chemical process generating glucose using CO2 and water.Energy of light is used

Second step is the dark reaction. There, CO2 is reduced to glucoseusing energy captured in the 1st step



Related News


Epson scanner 4870 photo
How to make a photo smaller
Zuri white sands goa photos
Wrap around canvas photos
Valley of fire nv photos
Queen elizabeth the first photos
2018 toyota venza photos