Constant and Unique
Always moving.
Yes, the hotter atoms are, the faster they more.
1 mole of anything always contains 6.022*1022 things; therefore, 1 mole contains 6.022*1022 atoms.
this phrase refers to the" law of conservation of mass ".this law states that the total mass of the reactants is equal to the total mass of products after reaction has completed .or the total number of atoms taking part in a chemical reaction as reactants is equal to the total number of atoms obtained as products
Chitin is a polysaccharide. So, it is a polymer of many monosaccharides. In the case of chitin, the monosaccharide subunit that makes up it polymeric structure is N-acetyl-D-glucosamine.
Not necessarily. Each nuclide has its own half-life in the chain, with some steps slower, and some steps faster.
To calculate the fraction of atoms remaining in a fossil based on parent and daughter isotopes, you need to know the initial ratio of parent to daughter isotopes in the fossil and the current ratio. By comparing these ratios, you can determine the fraction of parent isotopes that have decayed into daughter isotopes, which indicates how much of the original parent isotopes remain in the fossil.
The daughter nuclide is the atom or atoms that result when a parent nuclide decays through emission of ionizing radiation or through fission.
These atoms are isobars.
These terms apply to the decay of radionuclides. The parent isotope is 'the starting point' of a decay series that when it decays, by giving off radiation, changes into another element, or isotope of the original element (the daughter isotope). For example: When Uranium 238 (parent isotope) decays and gives off an alpha particle, it transmutes into Thorium 234 (the daughter isotope).
To calculate the number of daughter atoms present after a certain amount of time in a radioactive decay process, you would use the formula: N = N0 * (1/2)^(t/T), where N0 is the initial number of parent atoms, N is the number of daughter atoms, t is the elapsed time, and T is the half-life of the radioactive isotope. Simply plug in the values to determine the number of daughter atoms after the given time.
Atoms have always and will always move unless, in the future, we find a way to get a substance to a temperature of absolute zero, 0 degrees Kelvin. Because the moving of the atoms creates heat.
All atoms of a given element have the same number of protons in a nucleus. It is the number of protons in an atom's nucleus that determines the elemental identity of any atom. Period.
Take a look at this:"In 1896 Henri Becquerel and Marie Curie discovered that certain isotopes undergo spontaneous radioactive decay, transforming into new isotopes. Atoms of a parent radioactive isotope randomly decay into a daughter isotope. Over time the number of parent atoms decreases and the number of daughter atoms increases. Rutherford and Soddy (1902) discovered that the rate of decay of a radioactive isotope depends on the amount of the parent isotope remaining. Later it was found that half of the parent atoms occurring in a sample at any time will decay into daughter atoms in a characteristic time called the half-life."from http://myweb.cwpost.liu.edu/vdivener/notes/radiometric_dating.htmThese discoveries lead to the practical application of radiometric dating so you could probably credit the discovery to these individuals.
It creates current!
electrons
Atoms vibrates always.