The indivisible solid sphere model, also known as the billiard ball model of the atom, was proposed by John Dalton in the early 19th century. He suggested that atoms are indivisible spheres that make up all matter and that they combine in simple whole number ratios to form compounds.
no, because according to him an atom is a tiny indestructable sphere with mass on it.
no, because according to him an atom is a tiny indestructable sphere with mass on it.
The billiard ball model is a simplified representation of gas molecules as hard spheres that move randomly and collide like billiard balls. In this model, gas molecules are assumed to have negligible volume and attraction, allowing for simple calculations of pressure, volume, and temperature based on the kinetic theory of gases.
John Dalton's model of the atom, proposed in the early 19th century, suggested that atoms were indivisible and indestructible spheres. He also proposed that elements consist of only one type of atom that combines in simple whole-number ratios to form compounds. However, we now know that atoms are composed of subatomic particles and are not indivisible.
The indivisible solid sphere model, also known as the billiard ball model of the atom, was proposed by John Dalton in the early 19th century. He suggested that atoms are indivisible spheres that make up all matter and that they combine in simple whole number ratios to form compounds.
no, because according to him an atom is a tiny indestructable sphere with mass on it.
I think it probably looked like a sphere. not positive.
dalton created a solid sphere model. He belived that the atom was one single sphere, and that diffrent elements were made of diffrent types of atoms.
no, because according to him an atom is a tiny indestructable sphere with mass on it.
Thompson's model proposed that atoms were made up of positive and negative charges distributed throughout a positively charged sphere, similar to a raisin pudding. In contrast, Dalton's model suggested that atoms were indivisible and uniform spheres with no internal structure. Thompson's model introduced the idea of subatomic particles, while Dalton's model viewed atoms as simple building blocks of matter.
The billiard ball model is a simplified representation of gas molecules as hard spheres that move randomly and collide like billiard balls. In this model, gas molecules are assumed to have negligible volume and attraction, allowing for simple calculations of pressure, volume, and temperature based on the kinetic theory of gases.
Dalton proposed planetary model. He kept electrons at a distance.
Dalton's model of an atom, proposed in the early 19th century, viewed the atom as a solid, indivisible sphere. He believed that atoms of different elements had different masses and sizes, and that they combined in simple whole number ratios to form compounds. However, this model was later replaced by more advanced atomic models that better explained the behavior of atoms.
The Greeks knew you could split an atom via nuclear fission, and used philospohy and logic. Dalton used experimental plates to check for a nucleus and came up with his model experimentally.
Thomson's experiment suggested the presence of negatively charged electrons in atoms, which led to the modification of Dalton's atomic model. Dalton's model proposed that atoms were indivisible and indestructible spheres, but Thomson's discovery showed that atoms were not indivisible and contained subatomic particles, leading to the development of the plum pudding model.
John Dalton's model of the atom, proposed in the early 19th century, suggested that atoms were indivisible and indestructible spheres. He also proposed that elements consist of only one type of atom that combines in simple whole-number ratios to form compounds. However, we now know that atoms are composed of subatomic particles and are not indivisible.