^That is no answer, just a sorry excuse
The gold foil experiment proved that the atom is mostly empty space with a small, dense nucleus.
True answer by Justin Wilkes
to find out if all element has the same mass or can pass through the tin foil in other words not all passed through
Ernest Rutherford
The gold-foil experiment led scientists to conclude that an atom's volume is mainly unoccupied.
The nuclear atom was discovered by Ernest Rutherford. He did it with a gold foil experiment.
Ernest Rutherford's famous "gold foil" experiment changed the way we though of atomic structure. His demonstration proved that atoms have a small, dense nucleus which contains protons and neutrons. The electrons were shown to be outside the nucleus. Prior to this, we thought atoms had a consistent structure throughout, like soup or pudding.
yes it was tested by the gold foil experiment
he shot tiny alpha particles throug a piece of gold foil.
That the mass of an atom is mostly located in a small nucleus.
The conclusion was that an atom has a nucleus (center) with a positive charge.
positive
For Rutherford's gold foil experiment, you will need the following materials: thin gold foil, alpha particles, a source for the alpha particles, a fluorescent screen or detector to observe the scattered particles, and a vacuum chamber to prevent air molecules from interfering with the experiment.
to find out if all element has the same mass or can pass through the tin foil in other words not all passed through
Rutherford's Gold Foil Experiment provided evidence for the existence of a small, positively charged nucleus at the center of the atom. This discovery led to the development of the nuclear model of the atom and overturned the previous plum pudding model.
Rutherfords gold foil experiment demonstrated the existence of the nucleus and lead to the model of a positive nucleus surrounded by electrons. This model was further developed by Bohr and then by Schroedinger and others to become the quantum mechanical model we now have with electrons in orbitals around the central positively charged nucleus..
The positively charged nucleus caused deflection. Positive charge is because of protons inside nucleus.
Yes, Rutherford's gold foil experiment was important as it provided evidence that atoms have a small, dense nucleus at their center, leading to the development of the nuclear model of the atom. This experiment also contributed to our understanding of atomic structure and helped pave the way for further discoveries in the field of nuclear physics.
Geiger and Marsden's gold foil experiment provided evidence for the existence of a dense nucleus at the center of an atom, based on the unexpected deflections of alpha particles being scattered at large angles. This supported the model proposed by Ernest Rutherford, which revolutionized atomic theory by introducing the concept of a small, positively charged nucleus surrounded by negatively charged electrons.