![]() They are the outer, orbiting electrons that can become part of chemical bonds. These are called valence (VAY-lents) electrons. Different elements have different numbers of electrons that - at least in theory - can be stolen by a neighbor. It won’t steal all of them, but just enough to be stable. If it’s able, an atom will steal electrons from a neighboring atom. A thin layer of gold covers the beryllium to improve the mirrors’ reflectivity. NASA chose beryllium due to its light weight and resistance to temperature-related shape change. Its 16 hexagon mirrors, arranged like a honeycomb, are made from beryllium, a rare metal. NASA’s James Webb Space Telescope is one example of a special project the uses a rare metal. But beryllium remains more stable than most metals during such sharp temperature changes. Since telescopes work by reflecting light, any tiny change in their shape could ruin a telescope’s images. When rocketed from Earth’s relatively lukewarm air to the cryogenic (super-cold) temperatures of space, metals contract and bend. ![]() Beryllium also holds its shape in frigid temperatures. For this eye in the sky, NASA chose the rare metal beryllium (Beh-RIL-ee-um) to make its honeycomb of gold-plated mirrors. After 25 years in development, the telescope launched on Christmas morning in 2021. Sometimes, a special project - such as the $10-billion James Webb Space Telescope - may call for a fairly rare metal. But if we wanted pure sodium, we’d need a way to separate it from one of the chemicals to which it had bonded. For example, silver can be mined as pure silver. They often occur naturally in forms easy to work with. And that highlights another reason low-reactivity metals are so useful. Sodium chloride, or table salt, is a common example. Instead, we find it after it has already bonded chemically with one or more other elements. Good thing, then, that pure sodium never occurs naturally. Watch as the ingredients of table salt - sodium (a metal) and chlorine - react chemically. But pure sodium, also a metal, is so reactive it explodes on contact with water! Pure silver is so safe that we use it for jewelry and flatware. ![]() Low-reactivity metals are safer to handle than high-reactivity ones. Reactivity refers to how easily a substance reacts chemically with other substances. (Although most known elements are metals, they are fairly uncommon in nature.)įamiliar metals also are less reactive than most other metals. ![]() For one thing, they’re easier to find than other metals. Although more than three-fourths of the 118 elements on the periodic table are metals, we craft tools from only a few of these. That’s because familiar metals, such as iron and silver, are special. Being malleable (MAAL-ee-ah-bul), metals can be hammered into sheets without shattering. Because they’re ductile (DUK-tul), they can be easily pulled and stretched into wires without snapping. Metals also can conduct electricity.īut not all metals are equally prized. Reacts on heating to form a black solid.A towering skyscraper bends under a strong gust of wind, but it doesn’t snap. Reacts as a powder on very strong heating. Reacts readily when heated as iron filings. Yellow solid forms which changes to white on cooling. Reacts steadily when heated forming a yellow solid which changes to white on cooling. Reacts readily with strong heating as a powder. Slowly forms a surface oxide at room temperature Yellow/orange flame and white solid formed. Tarnishes when freshly cut at room temperature
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |