Hello!
Well, impressively but, as you can clearly see,the reason that all ants can lift so<span> much, or are very strong, is all because of their body size increases as a cube of length- while the cross sectional area of muscles increases as the square of length as seen.
By the way, as an extra fact, ants aren't only very strong, but extremely fast also! It is studied and estimated that </span><span>the average ant as known, can carry between 10 and 50 times its own </span>body weight!<span> and run at approximately 300 meters an hour, a rate of nearly 800 times its body length a minute!
Very impressive right?
</span>I Hope my answer has come to your Help. Thank you for posting your question here in Brainly. We hope to answer more of your questions and inquiries soon. Have a nice day ahead! :)
(Ps. Mark As Brainliest IF Helped!)
Answer is in the file below
tinyurl.com/wpazsebu
Answer:
1. Potassium
2. increasing towards zero
3. hyperpolarization
4. voltage-regulated Potassium
Explanation:
Membrane potential can be defined as the difference in electric charges inside and outside of a cell. The resting membrane potential (RMP) occurs when there is no net current across the membrane and therefore the cell is in a non-excited state. At the RMP, sodium ions (Na+) are more concentrated inside the extracellular fluid (ECF) than inside the intracellular fluid (ICF), while potassium ions (K+) are more concentrated inside the ICF. The diffusion of K+ outside the cell triggers its hyperpolarization, by becoming the membrane potential more negative compared to the resting potential. As the potential nears +35 mV, the voltage-regulated potassium channels are open, thereby K+ ions leave the cell down its concentration gradient, while voltage-gated Na+ channels become saturated and inactivate.