One variable is sunlight
Changing one variable, such as light intensity, can significantly impact both photosynthesis and cellular respiration in plants. Increased light intensity generally enhances photosynthesis by providing more energy for the conversion of carbon dioxide and water into glucose and oxygen, thus boosting plant growth. However, if light intensity exceeds a certain threshold, it can lead to photoinhibition, reducing photosynthesis efficiency. Meanwhile, cellular respiration rates may not be directly affected by light intensity, but the glucose produced during photosynthesis serves as a substrate for respiration, linking the two processes.
they eat by photosynthesis or by other organisms......
carbon, and I don't know the other, sorry!
If two graphs have exactly the same shape, it indicates that the variables are proportional to each other. This means that as one variable increases or decreases, the other variable changes in a consistent and fixed ratio.
Light intensity and temperature are two environmental conditions that can affect the rate of photosynthesis. Higher light intensity generally increases the rate of photosynthesis, while extreme temperatures can either inhibit or denature the enzymes involved in the process.
The independent variable sometimes changes the dependant variable, because it is dependant on the other variable. Sometimes the independent variable doesn't change the dependant variable, in which case there is no causation between the two variables.
that there is a relationship between the two variables. This relationship can be used to predict how changes in one variable will affect the other variable.
In a direct relationship, as one variable increases, the other variable also increases. Conversely, as one variable decreases, the other variable decreases as well. The relationship between the two variables is positive and proportional.
The independent variable causes changes in the dependent variable; the dependent variable is contingent on the manipulations of the independent variable.
The other variable is doubled
The variable that does not affect friction is the surface area in contact. Friction is primarily influenced by the nature of the surfaces in contact, the applied force, and the roughness of the surfaces. The surface area does not have a direct effect on the frictional force generated between two surfaces.
a DEPENDENT variable is one of the two variables in a relationship.its value depends on the other variable witch is called the independent variable.the INDEPENDENT variable is one of the two variables in a relationship . its value determines the value of the other variable called the independent variable.
Changing one variable, such as light intensity, can significantly impact both photosynthesis and cellular respiration in plants. Increased light intensity generally enhances photosynthesis by providing more energy for the conversion of carbon dioxide and water into glucose and oxygen, thus boosting plant growth. However, if light intensity exceeds a certain threshold, it can lead to photoinhibition, reducing photosynthesis efficiency. Meanwhile, cellular respiration rates may not be directly affected by light intensity, but the glucose produced during photosynthesis serves as a substrate for respiration, linking the two processes.
Chlorophyll and Chloroplasts are the two other substances that plants use to "conduct" photosynthesis
It is called a direct or simple relationship between the two variables. This means that as one variable changes, the other variable changes in a predictable way and no other variables are involved in influencing the relationship.
Moderation occurs when the relationship between two variable depends on a third variable. The third variable is referred to as the moderate variable or simply the moderator
For two variables that are inversely related, if one variable is doubled, the other variable will decrease to half of its original value. This is because the product of the two variables remains constant when they are inversely related. Therefore, doubling one variable results in a proportional decrease in the other variable to maintain that constant relationship.