Yes, hydrolysis reactions often require the input of ATP to break down molecules by adding a water molecule. ATP provides the necessary energy to drive the hydrolysis reaction by breaking the bond between the molecules in the presence of water.
Exergonic reactions release energy and are spontaneous, while endergonic reactions require energy input and are non-spontaneous. ATP is used to drive endergonic reactions by providing the necessary energy for them to occur. ATP is regenerated through exergonic reactions by capturing the energy released during these reactions.
Cells use the energy from redox reactions in cellular respiration to produce ATP, which is the main energy currency of the cell. ATP is used to power various cellular processes and maintain overall cell function.
Both chloroplasts use light energy to synthesize ATP and mitochondria synthesize ATP using energy that's realeased by oxidizing sugars and fats.
The primary molecule for energy in metabolism is adenosine triphosphate (ATP). Cells use ATP as a source of energy to power biochemical reactions necessary for various cellular processes, such as growth, repair, and movement.
Yes, hydrolysis reactions often require the input of ATP to break down molecules by adding a water molecule. ATP provides the necessary energy to drive the hydrolysis reaction by breaking the bond between the molecules in the presence of water.
Exergonic reactions release energy and are spontaneous, while endergonic reactions require energy input and are non-spontaneous. ATP is used to drive endergonic reactions by providing the necessary energy for them to occur. ATP is regenerated through exergonic reactions by capturing the energy released during these reactions.
No. Carbohydrates are broken down into simple sugars called glucose. These molecules are then used in cellular respiration to regenerate adenosine diphosphate into adenosine triphosphate (ATP), which is what actually stores energy for you body's immediate use. Hydrolysis is used to "extract" energy from ATP for your body's use.
In photosynthesis, the light reactions converts the sunlight int chemical energy (ATP molecules, NADH+H). Dark reactions (light independent reactions) do not use sunlight directly, but use energy stored in ATP and NADH molecules combined with CO2 to produce sugars.
To make ATP.
In photosynthesis, the light reactions converts the sunlight int chemical energy (ATP molecules, NADH+H). Dark reactions (light independent reactions) do not use sunlight directly, but use energy stored in ATP and NADH molecules combined with CO2 to produce sugars.
Cells use the energy from redox reactions in cellular respiration to produce ATP, which is the main energy currency of the cell. ATP is used to power various cellular processes and maintain overall cell function.
In photosynthesis, the light reactions converts the sunlight int chemical energy (ATP molecules, NADH+H). Dark reactions (light independent reactions) do not use sunlight directly, but use energy stored in ATP and NADH molecules combined with CO2 to produce sugars.
To make ATP.
Both chloroplasts use light energy to synthesize ATP and mitochondria synthesize ATP using energy that's realeased by oxidizing sugars and fats.
The primary molecule for energy in metabolism is adenosine triphosphate (ATP). Cells use ATP as a source of energy to power biochemical reactions necessary for various cellular processes, such as growth, repair, and movement.
Light dependent reactions are reactions the capture light energy and convert it into chemical energy(ATP). It occur in the chloroplast of plant cells Light independent reactions are reactions capture energy and use it to produce food . It does not need sunlight