homeostasis i believe
The body's quick energy reserve is stored as glycogen in the liver and muscles. When needed, glycogen can be quickly converted into glucose to provide immediate energy for the body's functions.
The body stores primary energy in the form of glycogen in the liver and muscles, and in adipose tissue in the form of triglycerides. When needed, these energy stores are broken down and converted into usable energy for the body.
The backpack exerts a downward force (due to gravity) on the body's back and hips. This force is distributed across the back and hips, depending on the weight of the backpack and how it is positioned on the body.
The body's preferred energy source is carbohydrates, which are broken down into glucose to provide quick energy for cells. When carbohydrates are not available, the body can also use fats and protein for energy through processes like gluconeogenesis and ketogenesis.
In a long-distance race, the body first uses stored carbohydrates (glycogen) for energy. As these stores deplete, the body then shifts to burning fat for energy. Finally, if the race is prolonged, the body may start breaking down muscle tissue for fuel.
The skin,
No, internal bugs do not eat dead bodies. Internal bugs, typically referring to parasites or bacteria living inside a living organism, do not have the capability to consume a dead body. Scavengers like insects and bacteria from the external environment are responsible for decomposition after death.
The body's internal environment is maintained distinct from the external environment by the presence of semi-permeable cell membranes that selectively allow substances to enter or leave cells, and by homeostatic mechanisms that regulate internal conditions such as temperature, pH, and nutrient levels. Specialized organs like the liver, kidneys, and lungs also play a crucial role in filtering and maintaining the internal environment.
protectors
The body's internal environment is distinct from the external environment due to physiological processes such as homeostasis, which regulates factors like temperature, pH, and nutrient levels. Specialized structures like cell membranes, the blood-brain barrier, and the skin also help maintain this distinction by controlling the exchange of substances between the two environments. The body's ability to selectively absorb, excrete, and regulate the concentration of substances further reinforces the boundaries between internal and external environments.
An automatic response to the environment is a reflex
its inertia, for penn foster answer A.. :)
heart Internal organ maybe, but the largest organ is your skin.
Autoimmunity
It depends on your body temperature and homeostasis (your bodys way of maintaining internal conditions)
Inertia, inertial mass, or mass. All the same.
Homeostasis is achieved through a series of feedback mechanisms in the body that help regulate internal conditions such as temperature, pH, and nutrient levels. These mechanisms involve sensors that detect changes, control centers that process information, and effectors that bring about the necessary adjustments to maintain a stable internal environment. Homeostasis is crucial for the body to function properly and respond to internal and external changes.