yes
Yes, engulfing a particle of food by an amoeba requires energy as it involves the process of endocytosis where the cell membrane surrounds and engulfs the food particle. This process requires ATP, the cell's energy currency, to power the necessary molecular machinery.
A paramecium obtains energy through the process of phagocytosis, where it engulfs and digests prey such as bacteria. This process allows the paramecium to extract nutrients and energy for its survival.
Processes such as gravity, diffusion, and osmosis do not require energy input to occur. Additionally, objects at rest do not require energy to maintain their state.
No, a rock does not require energy to exist. Once formed, a rock can exist without needing external energy inputs to maintain its physical state.
The energy releasing process that does not require oxygen is called anaerobic respiration. This is mainly used by organisms who live in areas with little oxygen such as at the bottom of the ocean.
Yes, engulfing a particle of food by an amoeba requires energy as it involves the process of endocytosis where the cell membrane surrounds and engulfs the food particle. This process requires ATP, the cell's energy currency, to power the necessary molecular machinery.
Hamburger
metaphor sis
The primary sources of energy for an amoeba are organic matter such as bacteria, algae, and other small organisms that it engulfs through phagocytosis. Once ingested, the amoeba breaks down these organic molecules into nutrients like sugars and amino acids to generate energy through cellular respiration.
An amoeba gathers food through a process called phagocytosis, where it surrounds and engulfs its food, such as bacteria or algae, with its cell membrane to form a food vacuole. Enzymes are then released into the vacuole to digest the food, allowing the amoeba to absorb the nutrients.
When an amoeba eats a bacteria, it engulfs the bacteria into its cytoplasm through a process called phagocytosis. The bacteria is then enclosed in a food vacuole and digested by enzymes within the vacuole, providing the amoeba with nutrients for energy and growth. Any waste products from the digestion process are expelled from the cell.
The process an amoeba uses when it engulfs a food particle is called phagocytosis. During phagocytosis, the amoeba extends its pseudopods around the food particle, forming a food vacuole. Then, enzymes are secreted into the vacuole to digest the food. The digested nutrients are absorbed by the cell.
surrounding it with its cell membrane, forming a food vacuole. The food vacuole then fuses with lysosomes containing digestive enzymes, which break down the food into nutrients that can be absorbed by the amoeba for energy.
The cell membrane of an amoeba is actually flexible. It allows the amoeba to change its shape as it moves and engulfs food particles. This flexibility is important for the survival and feeding of the amoeba.
An amoeba uses a food vacuole to digest and break down food particles that it engulfs. The vacuole contains enzymes that help in the process of intracellular digestion, allowing the amoeba to absorb nutrients for energy and growth. Once digestion is complete, any undigested material is expelled from the cell.
heterotrophic in very basic, general terms: it "engulfs" it's prey. (like an amoeba!)
Food is stored in food vacuoles within an amoeba. When an amoeba engulfs food particles through phagocytosis, the food vacuole forms around the ingested material. Enzymes then break down the food inside the vacuole for digestion.