Explanation:
ok so this is not a answer but how is anyone suppose to read this? plz put clearer and better photos thanks!
Well, think about the types of movements (transportation) that happens between what surrounds the cells and inside the cell. When talking about active transport, materials will move from low to high concentration. There are sodium potassium pump that allows certain things to move sodium inside the cell and potassium outside the cell. The other two types of active transport are endocytosis and exocytosis which uses the cell membrane to move large amount of materials in and out of the cell. In the other hand, passive transport move things from high to low concentration that requires no energy at all. First of all, there are three types of passive transport. One of them (which will definitely will answer your question) is osmosis. Although osmosis moves water in and out of the cell, there are pretty special. One type of Osmosis is hypertonic, in which causes the cell to release its materials, if the concentration inside the cell is greater than outside the cell. The other type is hypotonic, in which materials move inside the cell causing the cell to get bigger if only if the concentration outside the cell is greater than inside the cell. Finally, the isotonic is when they're an equal distribution between inside and outside the cell (no movement of materials). That's all, and I hope I gave you enough information so you can master this topic!<em> If you have any questions like this, please respond and I am happy to answer your questions!</em>
Answer:
fossil fuels, oil, natural gas, and coal and nuclear energy.
Explanation:
Nonrenewable resources are those found inside the earth, and they took millions of years to form. you werent very specific so im sorry if i gave a wrong answer.
D. an observation that has a number associated with it.
Answer:
Explanation:
When one phosphate group is removed by breaking a phosphoanhydride bond in a process called hydrolysis, energy is released, and ATP is converted to adenosine diphosphate (ADP). Likewise, energy is also released when a phosphate is removed from ADP to form adenosine monophosphate (AMP).