1. atoms

2. John dalton Sir Joseph John "J. J." Thomson, OM, FRS [1] (18 December 1856 – 30 August 1940) was a British physicist.OMFRS [1]physicist In 1897 Thomson showed that cathode rays were composed of a previously unknown negatively charged particle, and thus he is credited with the discovery and identification of the electron; and, in a broader sense, with the discovery of the first subatomic particle. Thomson is also credited with finding the first evidence for isotopes of a stable (non-radioactive) element in 1913, as part of his exploration into the composition of canal rays (positive ions). He invented the mass spectrometer.cathode rays electronsubatomic particleisotopescanal raysmass spectrometer Thomson was awarded the 1906 Nobel Prize in Physics for the discovery of the electron and for his work on the conduction of electricity in gases.Nobel Prize in Physics

3. William cookes Sir William Crookes, OM, FRS (17 June 1832 – 4 April 1919) was a British chemist and physicist who attended the Royal College of Chemistry, London, and worked on spectroscopy. He was a pioneer of vacuum tubes, inventing the Crookes tube. Crookes was the inventor of the Crookes radiometer, [1] which today is made and sold as a novelty item.OMFRSRoyal College of Chemistry spectroscopyvacuum tubesCrookes tubeCrookes radiometer [1]

4. John dalton John Dalton FRS (6 September 1766 – 27 July 1844) was an English chemist, meteorologist and physicist. He is best known for his pioneering work in the development of modern atomic theory, and his research into colour blindness (sometimes referred to as Daltonism, in his honour).FRSchemistmeteorologistphysicistatomic theory colour blindness John Dalton FRS (6 September 1766 – 27 July 1844) was an English chemist, meteorologist and physicist. He is best known for his pioneering work in the development of modern atomic theory, and his research into colour blindness (sometimes referred to as Daltonism, in his honour).FRSchemistmeteorologistphysicistatomic theory colour blindness

5. jj thomsom In 1897 Thomson showed that cathode rays were composed of a previously unknown negatively charged particle, and thus he is credited with the discovery and identification of the electron; and, in a broader sense, with the discovery of the first subatomic particle. Thomson is also credited with finding the first evidence for isotopes of a stable (non-radioactive) element in 1913, as part of his exploration into the composition of canal rays (positive ions). He invented the mass spectrometer.cathode rayselectronsubatomic particleisotopescanal raysmass spectrometer Thomson was awarded the 1906 Nobel Prize in Physics for the discovery of the electron and for his work on the conduction of electricity in gases.Nobel Prize in Physics

6. Ernest rutherford Ernest Rutherford, 1st Baron Rutherford of Nelson, OM FRS [1] (30 August 1871 – 19 October 1937) was a New Zealand-born physicist who became known as the father of nuclear physics. [2] Encyclopedia Britannica considers him to be the greatest experimentalist since Michael Faraday (1791– 1867OMFRS [1] physicist nuclear physics [2]Encyclopedia BritannicaMichael Faraday

7. Different between atom particle Proton: mass 1 amu (atomic mass unit); found in Nucleus ; charge +1 Neutron: mass 1 amu ;found in nucleus ; charge zero electron : mass 1/1860th amu (almost zero) ; found in orbit around the nucleus ; charge -1

8. What is an electron cloud In chemistry and nuclear physics, the electron cloud is the only way to describe where electrons are when they rotate around the nucleus of an atom. The electron cloud model is different from the older model by Niels Bohr. 1.the number of protons in the nucleus of an atom, which determines the chemical properties of an element and its place in the periodic table. 2.Translate atomic number to

9. Figures of atoms Atoms in handEarth is a huge atom

10. Atom and exploded mode

11. ). The electrons of an atom are bound to the nucleus by the electromagnetic force. Likewise, a group of atoms can remain bound to each other by chemical bonds based on the same force, forming a molecule. An atom containing an equal number of protons and electrons is electrically neutral, otherwise it is positively or negatively charged and is known as an ion. An atom is classified according to the number of protons and neutrons in its nucleus

12. Atoms Around Us Atoms are building blocks. If you want to create a language, you'll need an alphabet. If you want to build proteins, you will need amino acids. If you want to build molecules, you will need atoms of different elements. Each element is a little bit different from the rest. Those elements are the alphabet in the language of molecules. Why are we talking about elements? This is the section on atoms. Atoms are the general term used to describe pieces of matter. You are made up of billions and billions of atoms. However, you may only find about 40 elements inside of your body. You would find hydrogen (H) atoms, oxygen (O) atoms, and a bunch of others. Those other atoms are made of the same basic pieces, but they are organized in different ways to make each element unique.proteinsamino acidsmoleculeselementhydrogenoxygen

13. Common Elements Let's work with that idea for a bit. If you read a book, you will find a bunch of words on a page. Letters make up those words. In English, we only have twenty-six letters, but we can make thousands of words. In chemistry, you are working with around 120 elements, and when you combine them you can make millions of molecules. Molecules are groups of atoms bonded together in the same way that words are groups of letters. An "A" will always be an "A" no matter what word it is in. A sodium (Na) atom will always be a sodium atom no matter what compound it is in. While the atoms may have different masses and organization, they are all built with the same parts. Electrons, protons, and neutrons make the Universe the way it is.

14. Different atoms

16. Lets talk about atom Chemical atoms, which in science now carry the simple name of "atom," are minuscule objects with diameters of a few tenths of a nanometer and tiny masses proportional to the volume implied by these dimensions. Atoms can only be observed individually using special instruments such as the scanning tunneling microscope. Over 99.94% of an atom's mass is concentrated in the nucleus, [note 1] with protons and neutrons having roughly equal massnanometerscanning tunneling microscope [note 1]

17. i

18. Cooler atoms