Answer:
hey Tai!
Explanation:
Well the 3 are correct. This is why!
The hind legs of a snowshoe hare are noticeably larger, and have more fur and larger toes than those of other rabbits or hares. These adaptations provide additional surface area and support for walking on snow. The hind legs are what give the hare (is the type of snowshoe) its common name.
Hares and rabbits are related, but there are some key differences. Hares tend to be larger than rabbits and have longer legs and bigger ears. When threatened, rabbits typically freeze and rely on camouflage, as compared to hares, who use their big feet to flee at the first sign of danger. Rabbits are born blind and helpless, while hares are born fully furred and ready to run.
The lynx is a solitary cat that haunts the remote northern forests of North America, Europe, and Asia. Lynx are covered with beautiful thick fur that keeps them warm during frigid winters. Their large paws are also furry and hit the ground with a spreading toe motion that makes them function as natural snowshoes.
In other words, both animals have different legs than common animals, since they live in the icy weather, therefore their legs must adapt to snow and speed to escape predators.
There are three main stages to get from food molecules to ATP: glycolysis, the citric acid cycle, and the electron transport chain.
Answer:
The correct words for the three blanks are as follows:
1. Endoplasmic reticulum. 2. Golgi apparatus. 3. Facilitated diffusion.
Explanation:
During the translation stage of protein synthesis, signal sequences are either attached or excluded from a synthesized protein in order to indicate the right location it should be sent to. Proteins that possess signal sequences are usually sent to the endoplasmic reticulum, where they will be folded into their right shapes. From the endoplasmic reticulum the proteins are then transported into Golgi apparatus via membrane vesicles. In the Golgi apparatus, proteins undergo their final modifications before they are transported to their final destinations. The final destination of glucose carrier proteins is the plasma membrane, where they help glucose molecules to enter the cell via facilitated diffusion.
it fasten the rate of reaction
