The discovery of germanium was important because it filled a gap in the Periodic Table, demonstrating the usefulness of Mendeleev's periodic law. Germanium's properties as a semiconductor also made it a crucial element for the development of early electronic devices like transistors, paving the way for modern technology.
The discovery of germanium was important for Mendeleev's periodic table because its properties matched the gaps he had predicted in his table. This provided evidence for the periodicity of elements and the accuracy of Mendeleev's arrangement. Germanium's discovery also helped validate the periodic law which states that the properties of elements are periodic functions of their atomic numbers.
It is bad that germanium capsules have an extra proton, as this would change the element from germanium (Ge) to another element. Germanium is typically stable with 32 protons, so adding an extra proton would make the element unstable and alter its chemical properties.
The element that has three more electrons than a neutral germanium atom is bromine. You can determine this by the atomic number. The atomic number of an element is the number of protons in the nuclei of its atoms. In a neutral atom, this is also the number of electrons. So, the atomic number of germanium is 32, so its neutral atoms contain 32 protons and 32 electrons. Move to the right three more elements, and you get bromine with an atomic number of 35, so its neutral atoms contain 35 protons and electrons.
the word phase also means its state so in that case germanium's normal phase or state is solid the word phase also means its state so in that case germanium's normal phase or state is solid the word phase also means its state so in that case germanium's normal phase or state is solid
Germanium is interesting because it is a metalloid that shares properties of both metals and non-metals. It has semiconducting properties that make it useful in electronic devices. Germanium was used in early transistors and has applications in fiber optics, infrared optics, and solar cells.
The discovery of germanium was important for Mendeleev's periodic table because its properties matched the gaps he had predicted in his table. This provided evidence for the periodicity of elements and the accuracy of Mendeleev's arrangement. Germanium's discovery also helped validate the periodic law which states that the properties of elements are periodic functions of their atomic numbers.
It is bad that germanium capsules have an extra proton, as this would change the element from germanium (Ge) to another element. Germanium is typically stable with 32 protons, so adding an extra proton would make the element unstable and alter its chemical properties.
the discovery was so important because they were looking for this forever
The element that has three more electrons than a neutral germanium atom is bromine. You can determine this by the atomic number. The atomic number of an element is the number of protons in the nuclei of its atoms. In a neutral atom, this is also the number of electrons. So, the atomic number of germanium is 32, so its neutral atoms contain 32 protons and 32 electrons. Move to the right three more elements, and you get bromine with an atomic number of 35, so its neutral atoms contain 35 protons and electrons.
the word phase also means its state so in that case germanium's normal phase or state is solid the word phase also means its state so in that case germanium's normal phase or state is solid the word phase also means its state so in that case germanium's normal phase or state is solid
Germanium is interesting because it is a metalloid that shares properties of both metals and non-metals. It has semiconducting properties that make it useful in electronic devices. Germanium was used in early transistors and has applications in fiber optics, infrared optics, and solar cells.
Germanium itself has no taste or odor. However, germoxane compounds with a germanium atom attached may have a garlic-like odor due to the presence of organic groups. Ingesting germanium compounds can be toxic, so it is important to avoid contact with these materials.
An Important Use Of Germanium Is That It's A Semi-Conductor (Semiconductor.) A Semi-Conductor Will Only Conduct Things, Such As Heat, So Well, And Only So Many Of Times You Try.
In mid-1885, at a mine near Freiberg, Saxony, a new mineral was discovered and named argyrodite because of the high silver content. The chemist Clemens Winkler analyzed this new mineral, which proved to be a combination of silver, sulfur, and a new element. Winkler was able to isolate the new element in 1886 and found it similar to antimony. Before Winkler published his results on the new element, he decided that he would name his element neptunium, since the recent discovery of planet Neptune in 1846 had been preceded by mathematical predictions of its existence. However, the name "neptunium" had already been given to another proposed chemical element (though not the element that today bears the name neptunium, which was discovered in 1940). So instead, Winkler named the new element germanium (from the Latin word, Germania, for Germany) in honor of his homeland.
Germanium is a chemical element, so its presence or absence is considered a physical change. However, if germanium is combined with other elements to form compounds, the resulting chemical reaction would be classified as a chemical change.
Because of the treasures
1s2 2s2 2p6 3s2 3p6 4s2 3d8 5s2 4p2 Edit by Dr.J. How can this have 5s2 electrons? This configuration is incorrect. Germanium is a p-block element and so has 4p valence electrons, not 5s.