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Some of the functional characteristics of life are excitability and responsiveness. These two characteristics refer to the bodies ability to recognize and respond to stimuli.
Respiration, in and of itself, is a key characteristic of living things. However, breathing as humans do, with lungs, is not how all living things respire.
Cells are the basic structural and functional units of an organisms which are formed from preexisting cells.
If nothing decayed, and their nutrients returned to the soil, the surface would be a thick layer of bodies, and a real source of disease.
Movement
Decay
One of the functional characteristics of life is irritability. This refers to: SENSING CHANGES IN THE ENVIRONMENT AND THEN REACTING OR RESPONDING TO THEM.
If it was not functional you would not be able to read it and so it would, in most cases, be quite useless.
The half-life of a quantity whose value decreases with time is the interval required for the quantity to decay to half of its initial value. The concept originated in describing how long it takes atoms to undergo radioactive decay but also applies in a wide variety of other situations.Half-lives are very often used to describe quantities undergoing exponential decay-for example radioactive decay-where the half-life is constant over the whole life of the decay, and is a characteristic unit (a natural unit of scale) for the exponential decay equation. However, a half-life can also be defined for non-exponential decay processes, although in these cases the half-life varies throughout the decay process. The converse for exponential growth is the doubling time.
Life's Decay was created in 2003.
The decay rate of a specific radionuclide will depend on the quantity of the material in a sample. The more there is, the higher the decay rate. Decay rate for a specific isotope of a specific element is set by the nature of the radioisotope itself; it is an innate property or characteristic. Only by studying samples (specific quantities) containing large numbers of atoms of a given radioisotope, and by counting the number of decay events per unit of time, can we arrive at a characteristic called the half-life of that radioisotope.The half-life of a radionuclide is a statistically derived measure of the rate of its decay. And, to repeat, the rate of decay for a given radionuclide, is a natural characteristic of that radionuclide. It's the number of decays per unit of time that an observer can expect to count for a given sized sample of the material. Use the links below to gather more information.
From what I can tell, the most prominent characteristic of life is its changeability and unpredictability. These factors affect just about everyone's life, no matter when or where they live or lived.
it must have a ph of 7
it must have a ph of 7
It depends what on what balance your talking about
It would become vandium, iron, titanium or maganese depending on the amount of decay and the half-life of chromium
Half life is the time taken for approximately half of the available nuclei in a sample of radioactive material to decay into something else. It's a characteristic of the isotope, for example, the half life of the isotope of iodine, I131 is 8.08 days. Half lives can vary from fractions of a second to thousands of years.