The plum pudding model is considered incorrect in atomic structure because it was later replaced by the nuclear model, which showed that atoms have a small, dense nucleus at the center, rather than being uniformly distributed like in the plum pudding model.
Yes, a diamond is considered a crystal because it has a highly ordered atomic structure, which is a defining characteristic of crystals.
J. J. Thomson's experiments provided evidence for the existence of electrons as subatomic particles within the atom. This led to the plum pudding model of the atom, where electrons were embedded in a positively charged "pudding." These experiments laid the foundation for our understanding of atomic structure.
J.J. Thompson was the person who suggested the plum pudding model for the atomic structure. He declared that the electrons are located between a cloud of the positive charges. This model was proven incorrect from the alpha particle experiment done by Ernest Rutherford.
No, glass is not technically a liquid. It is an amorphous solid, which means it has a disordered atomic structure similar to a liquid but is still considered a solid.
J.J. Thomson proposed the "plum pudding" model of the atom, where electrons were embedded in a positively charged sphere, similar to plums in a pudding. This model suggested that the atom was a uniform, positively charged structure with negatively charged electrons scattered throughout.
The "plum pudding" atomic model of J. J. Thomson is considered today simplistic and incorrect; now is accepted the quantum atomic model, more realistic but also more complicate.
J.J. Thompson was the person who suggested the plum pudding model for the atomic structure. He declared that the electrons are located between a cloud of the positive charges. This model was proven incorrect from the alpha particle experiment done by Ernest Rutherford.
The plum pudding model, proposed by J.J. Thomson in 1904, describes the atomic structure as a sphere of positive charge with negatively charged electrons embedded within it, resembling a plum pudding dessert. The "plums" represent the electrons, while the "pudding" symbolizes the diffuse positive charge that balances the overall neutral charge of the atom. This model was later superseded by the Rutherford model after the discovery of the atomic nucleus, which revealed a more complex structure of the atom.
The plum pudding model, proposed by J.J. Thomson in 1904, does not have an atomic number because it is a conceptual model of atomic structure rather than a specific element. In this model, the atom is envisioned as a sphere of positive charge with negatively charged electrons embedded within it, resembling a "pudding" filled with "plums." The atomic number itself refers to the number of protons in the nucleus of an atom, which is specific to each element.
The nickname for Thompson's atomic model is the "plum pudding model." This model suggests that atoms are made up of a positively charged "pudding" with negatively charged electrons embedded within it, resembling plums in a pudding.
john dalton?
The structure of an atom is just like the solar system. ==================================== The above answer is incorrect. Rutherford's atomic theory included the idea that Elcectrons float around a nucleus with protons.
The plum pudding model was replaced by the Rutherford model of the atom. In 1911, Ernest Rutherford conducted his gold foil experiment, which demonstrated that atoms have a dense, positively charged nucleus surrounded by electrons. This shifted the understanding of atomic structure from the diffuse distribution of mass in the plum pudding model to a more concentrated nucleus with electrons orbiting around it, laying the groundwork for the modern atomic model.
Yes, a diamond is considered a crystal because it has a highly ordered atomic structure, which is a defining characteristic of crystals.
The plum pudding model, proposed by J.J. Thomson in 1904, revolutionized the understanding of atomic structure by suggesting that atoms are composed of a positively charged "pudding" with negatively charged electrons embedded within it. This model paved the way for future atomic theories and experiments, ultimately leading to the development of quantum mechanics. Although later replaced by more accurate models, such as the Rutherford and Bohr models, the plum pudding concept was crucial in advancing scientific thought about atomic composition and interactions. Its influence extended into various fields, including chemistry and physics, shaping the modern understanding of matter.
The Bohr atomic model differs from the plum pudding model primarily in its depiction of atomic structure. The plum pudding model, proposed by J.J. Thomson, suggests that atoms are composed of a positively charged "soup" with negatively charged electrons embedded throughout, like plums in a pudding. In contrast, the Bohr model, developed by Niels Bohr, introduces distinct energy levels for electrons, with them orbiting the nucleus in defined paths, akin to planets around the sun. This shift emphasizes the quantization of electron energy states, a concept absent in the plum pudding model.
2d is incorrect