legs
It is an Carnivore, which eats only animals. it mostly eats bugs.
Frogs typically use camouflage, toxins in their skin, and jumping ability as defense mechanisms to protect themselves from predators. Some species of frogs can also puff themselves up to appear larger when threatened.
Hairspray is not a good way to get rid of frogs. Frogs are not deterred by hairspray. Using large quatities may kill a frog because of the chemicals in the spray but this may also be dangerous to a person applying the spray.
Frogs lack teeth because their diet primarily consists of small prey that they swallow whole. Instead of chewing, frogs use their sticky tongue to catch and swallow insects, and their digestive system is adapted to process their food without the need for teeth.
In urine and faeces, by evaporation and by osmosis.
Frogs absorb water from their surroundings by osmosis.
they don't use osmosis
osmosis involves water passing in and out of the cell
Actually there are some frogs that live in desert ares of Austria.The catholic frog. The Flat headed frog and the Rheoba Trachus Silus frog.
Used to travel in outer space at the osmosis of speed of light.
when frogs come onto the land they need oxygen from the air,this wax coating dissolves oxygen in it and the frog can breathe easily.also this prevent the water to flow across its skin membrane due to osmosis.
The cell does not need to use any ATP in order for osmosis to occur.
Yes. Osmosis needs water to finish the final product and to make both sides even. However, they use water as well and bacteria forms to produce a toxic waste. It is impossible to see osmosis but if you use a microscope you can.
No, osmosis is a passive process that does not require the use of energy or oxygen. It is the movement of water molecules across a semi-permeable membrane from an area of high concentration to an area of low concentration. Oxygen is not involved in the process of osmosis.
Some frogs use it for camoflage.
No, osmosis is a passive process that does not require the use of cell energy (ATP). It is driven by the concentration gradient of solutes across a selectively permeable membrane.