Answer:
Explanation:
A. False - A symporter system requires that one of the molecules to be transported using passive transport.
B. True - The Na+ will move down the established concentration gradient releasing energy to facilitate movement of sucrose against its concentration gradient. This is known as secondary active transport.
C. False - sucrose moves through ion channels not by diffusion to better control its movement across the membrane.
D. True - Movement of molecules against their concentration gradient thus requiring energy input is known as active transport.
E. False - One of the molecules needs to be moving against its concentration gradient.
F. False - A Uniporter system allows the binding and transport of a single molecule at a time. A symporter allows simultaneous binding and transport of Na+ and sucrose molecules.
Light-independent reactions<span> take the chemical energy and also the </span>carbon<span> dioxide and uses them to build long-term energy storage molecules. </span>During<span> this </span>reaction<span>, both the ATP and NADPH transform the </span>carbon<span> dioxide into carbohydrates. ... So the</span>carbon atoms<span> are released </span>during<span> cellular respiration.</span>
Blue jays have caterpillars and mice as their food. An increase in the blue jay population will cause a decrease in the caterpillar and mice population since more blue jays will eat caterpillars and mice. As time passes, the blue jays will have a problem finding food since the caterpillar and mice population has decreased, so the blue jay population will eventually lower as well.
Because the organism that causes botulism can not survive when exposed to air- it is anaerobic
