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Why do human cells rely far more on glucose and fat for energy than on protein?
More energy is available to us aerobically (fat can only be metabolized aerobically), the high energy needs of endurance MORE
What chemical compound which stores energy until the cell needs it to perform some function?
Adenosine triphosphate (ATP) is the chemical compound that stores energy in cells. When cells require energy to perform functions, ATP releases energy through the breaking of high-energy phosphate bonds, providing the necessary energy for cellular activities.
What energy carrier cells use to transport high-energy electrons?
pigment
Where is the mitochondria in your body?
Mitochondria are found in nearly every cell of the human body, where they serve as the powerhouse of the cell by generating energy in the form of ATP through a process called cellular respiration. They are most abundant in cells with high energy demands, such as muscle cells.
Why do sperm cell have a high density of mitochondria while the human cheek cell have only a few mitocondria?
Sperm cells require a lot of energy to swim to the egg for fertilization, hence they have a high density of mitochondria to produce energy through respiration. Cheek cells do not require as much energy as sperm cells, so they have fewer mitochondria.
Why do human cells rely far more on glucose and fat for energy than on protein?
More energy is available to us aerobically (fat can only be metabolized aerobically), the high energy needs of endurance MORE
What does HEI stand for?
High Energy Ignition Human Embryonic Intestine (cells)
What chemical compound which stores energy until the cell needs it to perform some function?
Adenosine triphosphate (ATP) is the chemical compound that stores energy in cells. When cells require energy to perform functions, ATP releases energy through the breaking of high-energy phosphate bonds, providing the necessary energy for cellular activities.
What cell in the human body has the most midocondria?
Muscle cells have the most mitochondria in the human body. Mitochondria are the powerhouses of the cell, responsible for producing energy in the form of adenosine triphosphate (ATP) through a process called cellular respiration. Due to the high energy demands of muscle cells, they contain a large number of mitochondria to support their function.
What energy carrier cells use to transport high-energy electrons?
pigment
What are cells that have a high energy requirement generally have?
khkhlkh
What is the high-energy molecule used by cells?
ATP
What is the high energy molecule used by cells?
ATP
Why do cells need energy to survive?
cells are composed of highly ordered molecules that contain high-energy hydrocarbon bonds
Where is the mitochondria in your body?
Mitochondria are found in nearly every cell of the human body, where they serve as the powerhouse of the cell by generating energy in the form of ATP through a process called cellular respiration. They are most abundant in cells with high energy demands, such as muscle cells.
what TYPE of animal cell that has a lot of mitochondra?
Cells that require a lot of energy to carry out their functions, such as muscle cells and nerve cells, tend to have a high concentration of mitochondria. Muscle cells, for example, require a lot of energy to contract and relax, so they have a high density of mitochondria to produce the ATP (adenosine triphosphate) required for energy. Similarly, nerve cells require a lot of energy to transmit signals along their length, so they also have a high concentration of mitochondria. Other cells that have a high density of mitochondria include liver cells, which have a lot of metabolic processes, and kidney cells, which require a lot of energy to carry out their filtration function.
Give the various forms types of energy for a high energy compound and list 4 specific in a bacterial cell?
The various forms of energy needed to form a high-energy compound in a bacterial cell include chemical energy, electrical energy, and potential energy. Specific high-energy compounds in bacterial cells include ATP, GTP, NADH, and FADH2. These compounds play key roles in cellular processes such as metabolism and energy production.
