Erwin Schrodinger
1. The solar system model of the atom This model has the nucleus at the centre of the atom like the sun is in the solar system, and the electrons orbiting the nucleus like planets. This is useful for visualising electron energy levels, but it isn't what the atom actually looks like. 2. The computer model of human brain function This model compares the working of the human brain to a computer, where RAM is short term memory and the hard drives are long term memory. It also covers the senses, as they are like input into a computer. Information from the senses are also processed, like how a computer program will interpret data, and responses are like the computer's output. This is a very simplified description of the brain's function, but it works on some levels. 3. A diagram This model is like a map but actually is not. For example you could choose one on chimpanzees. You would draw where the chimpanzee goes, or how far they travel.
It is essential to use balanced equations when solving stoichiometric problems because each kind of atom has to be the same on both sides of the equation. The chemical reactions that take place are molar ratios.
atom APEX Is Hard
Depends upon the atom and element, some have an energy level of 0 and it can be +/- for others depending on the number of protons or electrons in said atom.
The electronic geometry about the carbon atom is: tetrahedral The orbital hybridization about the carbon atom is: sp^3 The molecular geometry about the carbon atom is: tetrahedral
An example could be a diagram, or picture, or equation, etc.
Schrodinger is the author of the well known equation; this equation can describe an atom. That there was a great deal of uncertainty as to where things were and that waves were as important as particles.
bhors law is the equation of minus and equals
The current picture of the hydrogen atom is based on the atomic orbitals of wave mechanics which Erwin Schrodinger developed in 1926. This model is based on the Schrodinger Equation.
A model of the atom is a 3-D structure of the atom's structure.
This is the quantic model of atom.
Since we cannot really look at something as small as an atom (actually, with the most powerful kind of microscope, it is just barely possible to get a picture of an individual atom, which looks like a tiny blob) we use very complicated mathematical models to tell us about the shape of an atom. The most complete mathematical description of the behavior of sub-atomic particles is the Shroedinger Equation, which is extremely difficult to solve, so we can only get a complete answer in relatively simple cases.
The Bohr model of the atom was a planetary model.
Erwin Schrodinger
Before Rutherford, scientists assumed that the atom was a single particle. Rutherford presented his revolutionary, physical atomic model that suggested an atom consists of a central charge (the term 'nucleus' was coined after Rutherford's model was presented) that is surrounded, presumably, by a cloud of orbiting electrons. He showed that most of an atom's mass was located in the atom's nucleus. Rutherford's model was later improved upon by Niels Bohr, father of the Bohr-model. Rutherford made no connection to an element's atomic number and the number of protons within an atom's nucleus; however, his atomic model paved the way for the discovery of this correlation only a couple years after his model was designed.
Today the model of atom is based on quantum mechanics.
A model of the atom is a 3-D structure of the atom's structure.