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  • very small relative to size of whole atom
  • extremely dense
  • highly positively charged
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Rutherfords alpha scattering experiment showed that the charge on the nucleus of the atom must be?

Rutherford's alpha scattering experiment showed that the charge on the nucleus of the atom must be positive because the alpha particles were deflected by the concentrated positive charge in the nucleus.


What did rutherfords gold foil experiment demonstrate?

Rutherford's gold foil experiment demonstrated the existence of the atomic nucleus and that it is densely packed in the center of the atom. This experiment led to the development of the nuclear model of the atom, which replaced the plum pudding model. It also showed that most of the atom is empty space.


How did Rutherfords gold foil experiment tell scientists about the atomic structure?

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.


Rutherfords gold foil experiment led to the discovery of the?

Nucleus - Rutherford fired particles at gold foil, and most went straight through. This showed that most of atoms are empty, and that most of the mass only occupies a small part of the atom. This part is known as the nucleus.


What did the Gold Foil Experiment prove?

The Gold Foil Experiment, conducted by Ernest Rutherford, proved the existence of the atomic nucleus. The experiment showed that most of the atom's mass and positive charge is concentrated in a small, dense nucleus at the center of the atom. This discovery revolutionized our understanding of atomic structure.

Related Questions

Rutherfords alpha scattering experiments showed that the charge on the nucleus of the atom must be?

The atomic nucleus is positive because contain protons.


Rutherfords alpha scattering experiment showed that the charge on the nucleus of the atom must be?

Rutherford's alpha scattering experiment showed that the charge on the nucleus of the atom must be positive because the alpha particles were deflected by the concentrated positive charge in the nucleus.


What did rutherfords gold foil experiment demonstrate?

Rutherford's gold foil experiment demonstrated the existence of the atomic nucleus and that it is densely packed in the center of the atom. This experiment led to the development of the nuclear model of the atom, which replaced the plum pudding model. It also showed that most of the atom is empty space.


How did Rutherfords gold foil experiment tell scientists about the atomic structure?

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.


Rutherfords gold foil experiment led to the discovery of the?

Nucleus - Rutherford fired particles at gold foil, and most went straight through. This showed that most of atoms are empty, and that most of the mass only occupies a small part of the atom. This part is known as the nucleus.


What did the Gold Foil Experiment prove?

The Gold Foil Experiment, conducted by Ernest Rutherford, proved the existence of the atomic nucleus. The experiment showed that most of the atom's mass and positive charge is concentrated in a small, dense nucleus at the center of the atom. This discovery revolutionized our understanding of atomic structure.


Will you consider rutherfords gold foil experiment important?

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.


Rutherford's experiments led to the discovery of the?

Rutherford's experiments led to the discovery of the atomic nucleus. Through his gold foil experiment, he found that atoms have a small, dense, positively charged nucleus at their center and that the rest of the atom is mostly empty space. This discovery revolutionized our understanding of atomic structure.


What did Rutherford scattering experiment reveal about atoms?

The Rutherford scattering experiment showed that atoms have a tiny, positively charged nucleus at their center surrounded by mostly empty space. This experiment led to the discovery of the atomic nucleus and helped establish the model of the atom as mostly empty with a dense nucleus at its core.


What subatomic particles did Rutherford discover in 1919?

Rutherford discovered the proton in 1919 during his gold foil experiment. This experiment showed that atoms have a dense, positively charged nucleus at their center. Rutherford's findings revolutionized the understanding of atomic structure.


Who was the scientist that showed existence of the nucleus?

Ernest Rutherford was the scientist who demonstrated the existence of the atomic nucleus through his famous gold foil experiment in 1909. He discovered that atoms have a small, dense core at their center that contains positively charged particles which he named protons.


How did Rutherford's experimental evidence lead to the development of a new atomic 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..