Rutherford's results indicated that most of the alpha particles went
right through the gold atoms without being affected. He had expected
this, because he knew there must be relatively large space within atoms.
However, he was astonished to see that a few alpha particles rebounded
from the foil much as a ball rebounds from a solid wall. Rutherford had
discovered the nucleus-the tiny, dense, positively charged centre of the
atom. This was a tremendously important discovery.
Rutherford's gold foil experiment showed that atoms have a small, dense positively charged nucleus at their center, with most of the atom consisting of empty space. This led to the development of the nuclear model of the atom, where electrons orbit the nucleus. The experiment also suggested that the positive charge of the nucleus is concentrated in a small volume, explaining why most alpha particles passed through the foil undeflected.
Analysis- these are statements you make about the data. What does the data tell you? These statements might answer the question "What was the highest number?" or "What was the lowest number?" Tell what that means in relation to your hypothesis.
The oxidation number of an atom indicates the number of electrons it has gained, lost, or shared to reach a stable configuration. It provides information on an atom's electron distribution and helps predict its reactivity in chemical reactions.
If you know how many protons the atom has, then that can tell you what element from the periodic table is classifying the atom.
Quantum numbers provide information about the energy, position, and spin of an electron in an atom. They help us understand the arrangement of electrons in different orbitals and predict their behavior within the atom.
That the atom Mostly consisted of empty space.- apex
Rutherford's gold foil experiment revealed that atoms consist mostly of empty space, as most alpha particles passed through the foil without deflection. However, some particles were deflected at large angles, indicating the presence of a small, dense, positively charged nucleus at the center of the atom. This led to the conclusion that electrons orbit around this nucleus, fundamentally changing the understanding of atomic structure. The experiment established the nuclear model of the atom, replacing the earlier plum pudding model.
that the atom mostly consisted of empty space
It told them that the atom was mostly empty space.
that the atom mostly consisted of empty space.
Rutherford's gold foil experiment showed that atoms have a small, dense positively charged nucleus at their center, with most of the atom consisting of empty space. This led to the development of the nuclear model of the atom, where electrons orbit the nucleus. The experiment also suggested that the positive charge of the nucleus is concentrated in a small volume, explaining why most alpha particles passed through the foil undeflected.
that the atom mostly consisted of empty space.
That the atom Mostly consisted of empty space.- apex
Communicating would be to tell the research of what the experiment is going to be unless a hypotheses is correct for an experiment.
The francium atom is larger.
Which magnesium experiment !
Which experiment? You have to tell which experiment it is, so we can answer it. -Elisax