Arteries are able to withstand the enormous pressure of blood as it is pumped by the heart and to expand and relax between heart beats.
Deep sea creatures have adapted to survive the immense pressure of the ocean depths through various biological mechanisms. Their bodies are often flexible and lack gas-filled spaces, allowing them to withstand the pressure. Some deep sea creatures also have specialized proteins and enzymes that help maintain their cellular structure under high pressure conditions. Additionally, their bodies may contain substances that act as pressure regulators, helping them to maintain internal balance. Overall, deep sea creatures have evolved unique adaptations that enable them to thrive in the extreme conditions of the deep ocean.
Endospores are a dormant, tough, and non-reproductive structure formed by some bacteria as a survival mechanism in response to harsh environmental conditions. They help the bacteria to withstand extreme conditions such as high temperatures, desiccation, and exposure to chemicals or radiation. This allows the bacteria to remain viable for long periods until conditions improve.
A myofibril is a thread-like structure within a muscle cell that contains the proteins responsible for muscle contraction. A myocyte, on the other hand, is the actual muscle cell that contains multiple myofibrils. In summary, myofibrils are the components within a myocyte that enable muscle contraction.
In mosses, the spores are enclosed in a sporangium, which is similar to the spore case found in ferns. The sporangium releases spores to enable reproduction in both mosses and ferns.
The structure is known as a flagellum. Flagella help cells such as sperm cells or certain types of bacteria to move by rotating in a whip-like manner.
The heart is awesome. it pumps the blood and fills the arteries making them high in blood pressure. --3
The heart is awesome. it pumps the blood and fills the arteries making them high in blood pressure. --3
Plant cells gain stability primarily from their rigid cell walls, which are composed of cellulose, hemicellulose, and pectin. This structure provides mechanical support, helping the plant maintain its shape and withstand external pressures. Additionally, the turgor pressure created by the central vacuole, which is filled with water, further reinforces the cell's stability. Together, these features enable plants to grow upright and resist deformation.
Deep sea creatures have adapted to survive the immense pressure of the ocean depths through various biological mechanisms. Their bodies are often flexible and lack gas-filled spaces, allowing them to withstand the pressure. Some deep sea creatures also have specialized proteins and enzymes that help maintain their cellular structure under high pressure conditions. Additionally, their bodies may contain substances that act as pressure regulators, helping them to maintain internal balance. Overall, deep sea creatures have evolved unique adaptations that enable them to thrive in the extreme conditions of the deep ocean.
Simply because they'e often supplied form a single source - under high pressure, to enable them to circulate right through the hospital. Copper pipes can withstand higher pressures.
Arteries take blood from the heart to the body. Capillaries are tiny blood vessels that enable substance exchange between the blood and the body tissues. Veins carry blood back to the heart.
a dick
You can't. Paintnet doesn't support pressure sensitivity. It used to, but it got removed.
Gills enable tadpoles to breathe in the water.
unified command
unified command
Because the gasses are under terrific pressure - to enable the 'user' to get the maximum time form the cylinder. The high pressure means that wood or plastic aren't suitable for their construction, as they cannot take the extreme force of the pressurised gas.EDIT: apparently LPG tanks can be made of plastic !