You did not drink enough water.
You did not defecate for a long time.
The statements that describe active transport are as follows:
- At the end of the process, a larger concentration of substances is on one side of cell membrane than the other.
- uses ATP (energy) from cell
- move substances from low to high concentrations
<h3>WHAT IS ACTIVE TRANSPORT?</h3>
Active transport is the process whereby molecules or substances are moved from a region of lower concentration to a region of higher concentration across a membrane.
Active transport moves molecules against a concentration gradient, hence, requires the input of energy for it to occur.
Based on the above explanation, the statements that describe active transport are as follows:
- At the end of the process, a larger concentration of substances is on one side of cell membrane than the other.
- uses ATP (energy) from cell
- move substances from low to high concentrations
Learn more about active transport at: brainly.com/question/2503897
The correct answer is D. Vacuole
Explanation:
In cells, the vacuole is the organelle in which different substances or solutions are stored, this includes wastes, water, food, and even solids that the cell does not require because they are waste and therefore might contaminate the cell or substances the cell store to be used later. Due to this, the vacuole is a chamber that contains specialized membranes that allow certain substances to go in or out. Also, vacuoles can be found in plants, animals, fungi, among others although in organisms such as plants they are bigger. According to this, it is vacuoles the organelle that stores wastes, water or food.
With help of the RNA
or comparing two or More species
Answer:
The answer is Archaea
Explanation:
Archaea are the single celled organisms similar to bacteria however they have different membranes.
They are known to be extremophilic since they can grow and survive in extreme condition. The environment extremity can be highly alkaline or acidic environment and hot springs etc. Also these can survive in high temperature and pressure conditions.