What is created in the Light dependant reaction in Photosynthesis that is needed for the Calvin Cycle (light independant reaction), and what is the result of the Calvin Cycle?
ATP and NADPH are produced from light dependant reactions to produce high-energy sugars. The result of the calvin cycle is that it removes carbon dioxide from the atmoshpere and in the end to make energy-rich soils, as the end result.
light dependant reactions produce ATP and NADPH to produce high-energy sugars. The Calvin Cycle removes carbon dioxide from the atmosphere and makes high energy sugars
it produces ATP and NADPH and they produce high-energy sugars. the Calvin Cycle removes carbon dioxide from the air and makes high-energy sugars with the help from ATP and NADPH
Light dependent reactions produce ATP and NADPH to produce high energy sugars. The end result of the Calvin Cycle is that it removes carbon dioxide from the atmosphere and creates high energy sugars.
Light dependent reactions produce both ATP and NADPH which then produce high energy sugars. The Calvin Cycle creates high energy sugars by removing the carbon dioxide from the atmosphere.
Light dependant reactions create ATP and NADPH which enables the calvin cycle to create high energy sugers and remove carbon dioxide from the atmosphere.
light dependent reactions produce ATP and NADPH to produce high energy sugars. The calvinn cycle remives carbin dioxide from the atmosphere and makes high energy sugars.
Light dependent reactions produce ATp and NADPH to produce high-energy sugars. The result of the Calvin cycle is that it removes carbon dioxide from the atmosphere and makes high energy sugars
Light dependent reactions create ATP and NADPH which make high-energy sugars. The Calvin Cycle removes CO2 from the atmosphere and makes high energy sugars.
ATP and NADPH are produced from light-dependant reaction in Photosynthesis. The calvin cycle removes carbon dioxide from the atmosphere and helps create high energy sugars.
ATP and NADPH are created from light dependent reactions to make high-energy sugars. The result of the calvin scyle is that ir removes carbon dioxide from the atmosphere and in the end to produce energy-rich soils, as the end result.
light dependant reactions produce ATP and NADPH to produce high-energy sugars. The Calvin Cycle removes carbon dioxide from the atmosphere and makes high energy sugars
The light dependent reaction produces both ATP and NADPH in order to produce high energy sugars. The Calvin Cycle removes Carbon Dioxide from the atmosphere and in result high energy sugar is made.
light dependent reactions produce ATP and NADPH to produce high energy sugars. The calvin cycle removes carbin dioxide from the atmosphere and makes high energy sugars.
light dependent reactions produce ATP and NADPH to produce high energy sugars. the calvin cycle removes carbon dioxide from the air and makes high energy sugars
Light dependent reactions create ATP and NADPH to produce high energy sugars.The Calvin Cycle removes carbon dioxide from the atmosphere and as a result, it makes high energy sugars.
Light Dependent reactions produce ATP and NADPH to produce high-energy sugars. The result of the Calvin Cycle is that it removes carbon dioxide from the atmosphere and makes high energy sugars.
ATP and NADPH are created in the Light dependant reaction in Photosynthesis that are needed for the Calvin Cycle. The Calvin Cycle removes carbon dioxide from the atmostphere and produces high energy sugars.
light dependent reactions produce ATP and NADPH to produce high energy sugars. the calvin cycle removes carbon doixide from atmosphere and makes high energy sugars
In the light dependant reaction, ATP and NADPH are produced, which are needed for the Calvin Cycle. After the Calvin Cycle, 6-carbon sugars and other compounds result.
Light Dependent reactions produce ATP and NADPH to produce high energy sugars. The calvin cycle removes carbon dioxide from the atmosphere and makes high energy sugars.
Light dependent reactions produce ATP and NADPH, this creates high-energy sugars. The Calvin Cycle removes C02 from the atmosphere and produces high- energy sugars.
ATP and NADPH are produced through light dependant reactions and in turn produce high-energy sugars. The calvin cycle removes carbon dioxide from the air and also produces high-energy sugars.
Light Dependent Reactions create ATP and NADHP which produce high-energy sugars. The result of the Calvin Cycle Removes carbon dioxide from the atmosphere which also makes high-energy sugars.
Light dependant reactions create ATP and NADPH to produce high energy sugars. The calvin cycle uses this to remove Carbon Dioxide build up in the atmosphere, and create high-energy sugars.
light dependent reaction produce ATP & NADPH to produce high energy sugars. The calvin cycle removes carbon dioxide from the atmosphere and makes high energy sugars.
Light dependent reactions produce ATP and NADPH to produce high-energy sugars, and the result of the calvin cycle is that it removes carbon dioxide from the air and makes high energy sugars
light dependant reactions produce atp and nadph to make high energy sugars. the calvin cycle's results eliminate the carbon dioxide from the atmosphere making high energy sugars
ATP and NADPH are produced from light-dependant reaction in Photosynthesis. The calvin cycle removes carbon dioxide from the atmosphere and helps create high energy sugars.
Light dependant reactions in photosynthesis create ATP and NADPH. The Calvin Cycle removes carbon dioxide from the atmosphere and high-energy sugars are produced as a result.
it produces ATP and NADPH and they produce high-energy sugars. the Calvin Cycle removes carbon dioxide from the air and makes high-energy sugars with the help from ATP and NADPH
ATP and NADPH are produced from light dependant reactions to produce high-energy sugars. The result of the calvin cycle is that it removes carbon dioxide from the atmoshpere and in the end to make energy-rich soils, as the end result.
ReplyDeleteI meant high energy sugars, sorry! :)
ReplyDeleteI meant high energy sugars, sorry! :)
ReplyDeletelight dependant reactions produce ATP and NADPH to produce high-energy sugars. The Calvin Cycle removes carbon dioxide from the atmosphere and makes high energy sugars
ReplyDeletePaisley Muller p.1
ReplyDeleteit produces ATP and NADPH and they produce high-energy sugars. the Calvin Cycle removes carbon dioxide from the air and makes high-energy sugars with the help from ATP and NADPH
Light dependent reactions create ATP and NADPH which the calvin cylce uses to produce high-energy sugars as a result.
ReplyDeleteLight dependent reactions produce ATP and NADPH to produce high energy sugars. The end result of the Calvin Cycle is that it removes carbon dioxide from the atmosphere and creates high energy sugars.
ReplyDeleteThe results needed for Calvin Cycle: ATP and NADPH
ReplyDeleteResults of Calvin Cycle:
High - energy sugars
The results needed for the Calvin Cycle are ATP and NADPH. The Results of the Calvin Cycle are high-energy sugars.
ReplyDeleteLight dependent reactions produce both ATP and NADPH which then produce high energy sugars. The Calvin Cycle creates high energy sugars by removing the carbon dioxide from the atmosphere.
ReplyDeleteLight dependant reactions create ATP and NADPH which enables the calvin cycle to create high energy sugers and remove carbon dioxide from the atmosphere.
ReplyDeletethe light dependent make atp and nadph and thats just produces the high energy sugars
ReplyDeletelight dependent reactions produce ATP and NADPH to produce high energy sugars. The calvinn cycle remives carbin dioxide from the atmosphere and makes high energy sugars.
ReplyDeleteLight dependent reactions create ATP and NADPH which the calvin cylce uses to produce high-energy sugars as a result.
ReplyDeleteJamie Hearron
Light dependent reactions produce ATp and NADPH to produce high-energy sugars. The result of the Calvin cycle is that it removes carbon dioxide from the atmosphere and makes high energy sugars
ReplyDeleteThe products needed for the Calvin Cycle are ATP and NADPH. The Results of the Calvin Cycle are high-energy glucose.
ReplyDeleteLight dependent reactions create ATP and NADPH which make high-energy sugars. The Calvin Cycle removes CO2 from the atmosphere and makes high energy sugars.
ReplyDeleteAtp and NADPH are made. the Calvin Cycle uses these two to create ihgh energy sugars
ReplyDeleteATP and NADPH are produced from light-dependant reaction in Photosynthesis. The calvin cycle removes carbon dioxide from the atmosphere and helps create high energy sugars.
ReplyDeletePaul Tadross
Period 1
Calvin Cycles produce high energy sugars with help of ATP and NADPH
ReplyDeleteAILANI HAUSE
period 2
ATP and NADPH are created from light dependent reactions to make high-energy sugars. The result of the calvin scyle is that ir removes carbon dioxide from the atmosphere and in the end to produce energy-rich soils, as the end result.
ReplyDeleteTaylor Bower p.1
ReplyDeletelight dependant reactions produce ATP and NADPH to produce high-energy sugars. The Calvin Cycle removes carbon dioxide from the atmosphere and makes high energy sugars
The light dependent reaction produces both ATP and NADPH in order to produce high energy sugars. The Calvin Cycle removes Carbon Dioxide from the atmosphere and in result high energy sugar is made.
ReplyDeletelight dependent reactions produce ATP and NADPH to produce high energy sugars. The calvin cycle removes carbin dioxide from the atmosphere and makes high energy sugars.
ReplyDeletelight dependent reactions produce ATP and NADPH to produce high energy sugars. the calvin cycle removes carbon dioxide from the air and makes high energy sugars
ReplyDeleteLight dependent reactions create ATP and NADPH to produce high energy sugars.The Calvin Cycle removes carbon dioxide from the atmosphere and as a result, it makes high energy sugars.
ReplyDeleteNicole Zielinski
Light Dependent reactions produce ATP and NADPH to produce high-energy sugars. The result of the Calvin Cycle is that it removes carbon dioxide from the atmosphere and makes high energy sugars.
ReplyDeleteLight dependant reactions produce ATP and NADPH. The calvin cycle makes high energy sugars and then removes carbon dioxide from the atmosphere.
ReplyDeleteLight dependent reactions produce NADPH and ATP. The Calvin Cycle makes high energy sugars and removes carbon dioxide from the atmosphere.
ReplyDeleteATP and NADPH are created in the Light dependant reaction in Photosynthesis that are needed for the Calvin Cycle. The Calvin Cycle removes carbon dioxide from the atmostphere and produces high energy sugars.
ReplyDeletelight dependent reactions produce ATP and NADPH to produce high energy sugars. the calvin cycle removes carbon doixide from atmosphere and makes high energy sugars
ReplyDeleteLight dependent reactions-
ReplyDeleteproduce ATP and NADPH to produce high energy sugars
The result of the Calvin Cycle-
is it removes carbon dioxide from the atmosphere and makes high energy sugars.
In the light dependant reaction, ATP and NADPH are produced, which are needed for the Calvin Cycle. After the Calvin Cycle, 6-carbon sugars and other compounds result.
ReplyDeleteAudrey Bruscia Period 2
Period 2:
ReplyDeleteLight dependent reactions make ATP and NADPH. The Calvin Cycle produces high-energy sugars and removes carbon dioxide from the atmosphere.
Light Dependent reactions produce ATP and NADPH to produce high energy sugars. The calvin cycle removes carbon dioxide from the atmosphere and makes high energy sugars.
ReplyDeleteLight Dependent reactions produce ATP and NADPH.
ReplyDeleteThe calvin cycle uses these to make high energy Sugars.
Light dependent reactions produce ATP and NADPH, this creates high-energy sugars. The Calvin Cycle removes C02 from the atmosphere and produces high- energy sugars.
ReplyDeleteATP and NADPH are produced through light dependant reactions and in turn produce high-energy sugars. The calvin cycle removes carbon dioxide from the air and also produces high-energy sugars.
ReplyDeleteLight dependent reactions create ATP and NADPH, which are needed for the Calvin Cycle. The results of the Calvin Cycle are high-energy sugars.
ReplyDeleteLight dependant reaction creates ATP and NADPH. And the result of the Calvin Cycle is 6-carbon sugars and other high energy sugars.
ReplyDeleteLight Dependent Reactions create ATP and NADHP which produce high-energy sugars. The result of the Calvin Cycle Removes carbon dioxide from the atmosphere which also makes high-energy sugars.
ReplyDeleteLight dependant reactions create ATP and NADPH to produce high energy sugars. The calvin cycle uses this to remove Carbon Dioxide build up in the atmosphere, and create high-energy sugars.
ReplyDeletecoco faulconer period 1
ReplyDeletelight dependent reaction produce ATP & NADPH to produce high energy sugars. The calvin cycle removes carbon dioxide from the atmosphere and makes high energy sugars.
it produces atp and nadph which produces high energy. The calvin cycle uses this to produce high-energy surgars as a result.
ReplyDeleteLight dependent reactions create ATP and NADPH which the calvin cylce uses to produce high-energy sugars.
ReplyDeletethe results needed for the calvin cycle are ATP and NADPH. the results for the calvin cycle are high energy sugars
ReplyDeleteLight dependent reactions produce ATP and NADPH to produce high-energy sugars, and the result of the calvin cycle is that it removes carbon dioxide from the air and makes high energy sugars
ReplyDelete>ATP and NADPH are produced from light-Dependant reactions to produce high- energy sugars
ReplyDelete> The result of The Calvin Cycle is that it removes Carbon Dioxide from the atmosphere and it creates high-energy sugars.
Light dependent reactions create ATP and NADPH. The calvin cylce uses them to produce high-energy sugars as a result.
ReplyDeletelight dependent produce ATP and NADPH and those make high energy sugars
ReplyDeletestephanie verheyen
period 1
light dependant reactions produce atp and nadph to make high energy sugars. the calvin cycle's results eliminate the carbon dioxide from the atmosphere making high energy sugars
ReplyDeleteThe products needed for the Calvin Cycle are ATP and NADPH. The Results of the Calvin Cycle are high-energy glucose.
ReplyDeletelight dependent reaction creates NADPH and ATP which in the calvin cycle carbon dioxide would be taken away to make high energy sugars.
ReplyDeleteATP and NADPH are produced from light-dependant reaction in Photosynthesis. The calvin cycle removes carbon dioxide from the atmosphere and helps create high energy sugars.
ReplyDeletelight dependent reactions make ATP and NADPH which the calvin cylce uses to produce high-energy sugars in the end
ReplyDeleteLight dependent - ATP and NADPH.
ReplyDeleteCalvin Cycle produces high engery sugars.
Cameron Cuevas per. 2
ATP and NADPH are made by the light-dependent reactions and are used y the calvin cycle to produce high energy sugars.
ReplyDeleteLight dependant reactions in photosynthesis create ATP and NADPH. The Calvin Cycle removes carbon dioxide from the atmosphere and high-energy sugars are produced as a result.
ReplyDeleteLight dependent reactions create ATP and NADPH which makes high-energy sugars .
ReplyDeleteLight dependant reactions create ATP and NADPH. The Calvin Cycle removes Co2 from the air and makes high energy sugars.
ReplyDeleteI didn't notice i've already commented, twice. (extra credit???)
ReplyDeleteLight dependent reactions create ATP and NADPH which the calvin cylce uses to produce high-energy sugars as a result.
ReplyDeleteNicole Zielinski
the calvin cycle needs the results ATP and NADPH. the results for the calvin cycle are high energy
ReplyDeletePeriod 1
Milan Gray
Omar Gonzalez per 2
ReplyDeleteit produces ATP and NADPH and they produce high-energy sugars. the Calvin Cycle removes carbon dioxide from the air and makes high-energy sugars with the help from ATP and NADPH