Difference between revisions of "Beryllium"
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: [[Beryllium]] is more [[Reactivity|reactive]] than [[Carbon]] on the [[Reactivity Series|reactivity series]] so it must be [[Extraction of Metals|extracted]] from its [[ore]] using [[electrolysis]]. | : [[Beryllium]] is more [[Reactivity|reactive]] than [[Carbon]] on the [[Reactivity Series|reactivity series]] so it must be [[Extraction of Metals|extracted]] from its [[ore]] using [[electrolysis]]. | ||
: [[Beryllium]] [[Chemical Reaction|reacts]] strongly with [[steam]] to produce [[Hydrogen]] [[gas]] and [[Beryllium Hydroxide]]. | : [[Beryllium]] [[Chemical Reaction|reacts]] strongly with [[steam]] to produce [[Hydrogen]] [[gas]] and [[Beryllium Hydroxide]]. | ||
+ | : [[Lithium]] is a [[solid]] at [[STP|room temperature]]. | ||
: An [[atom]] of [[Beryllium]] has only 2 [[electron]]s in its [[Outer Shell|outer shell]]. | : An [[atom]] of [[Beryllium]] has only 2 [[electron]]s in its [[Outer Shell|outer shell]]. | ||
: [[Beryllium]] [[ion]]s have lost 2 [[electron]]s to become [[Positive Charged|positively charged]]. | : [[Beryllium]] [[ion]]s have lost 2 [[electron]]s to become [[Positive Charged|positively charged]]. | ||
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: [[Beryllium]] is more [[Reactivity|reactive]] than [[Carbon]] on the [[Reactivity Series|reactivity series]] so it must be [[Extraction of Metals|extracted]] from its [[ore]] using [[electrolysis]]. | : [[Beryllium]] is more [[Reactivity|reactive]] than [[Carbon]] on the [[Reactivity Series|reactivity series]] so it must be [[Extraction of Metals|extracted]] from its [[ore]] using [[electrolysis]]. | ||
: [[Beryllium]] [[Chemical Reaction|reacts]] strongly with [[steam]] to produce [[Hydrogen]] [[gas]] and [[Beryllium Hydroxide]]. | : [[Beryllium]] [[Chemical Reaction|reacts]] strongly with [[steam]] to produce [[Hydrogen]] [[gas]] and [[Beryllium Hydroxide]]. | ||
+ | : [[Lithium]] is a [[solid]] at [[STP|standard temperature and pressure]]. | ||
: An [[atom]] of [[Beryllium]] has only 2 [[electron]]s in its [[Outer Shell|outer shell]]. | : An [[atom]] of [[Beryllium]] has only 2 [[electron]]s in its [[Outer Shell|outer shell]]. | ||
: [[Beryllium]] [[ion]]s have lost two [[electron]]s to become [[Positive Charged|positively charged]]. | : [[Beryllium]] [[ion]]s have lost two [[electron]]s to become [[Positive Charged|positively charged]]. |
Revision as of 14:25, 31 March 2019
Contents
Key Stage 2
Meaning
Key Stage 3
Meaning
Beryllium is a Group 2 element, on the Periodic Table, with an atomic number of 4.
About Beryllium
- Beryllium has the chemical formula Be.
- Beryllium as 4 protons and 5 neutrons in its nucleus giving it an Atomic Number of 4 and an atomic mass of 9.
- Beryllium is the least reactive alkali earth metal.
- Beryllium is more reactive than Carbon on the reactivity series so it must be extracted from its ore using electrolysis.
- Beryllium reacts strongly with steam to produce Hydrogen gas and Beryllium Hydroxide.
- Lithium is a solid at room temperature.
- An atom of Beryllium has only 2 electrons in its outer shell.
- Beryllium ions have lost 2 electrons to become positively charged.
Key Stage 4
Meaning
Beryllium is a Group 2 element, on the Periodic Table, with 4 protons in the nucleus.
About Beryllium
- Beryllium has the chemical formula Be.
- The most stable isotope of Beryllium has 5 neutrons in its nucleus giving it an atomic mass of 9.
- Beryllium is the least reactive alkali earth metal.
- Beryllium is more reactive than Carbon on the reactivity series so it must be extracted from its ore using electrolysis.
- Beryllium reacts strongly with steam to produce Hydrogen gas and Beryllium Hydroxide.
- Lithium is a solid at standard temperature and pressure.
- An atom of Beryllium has only 2 electrons in its outer shell.
- Beryllium ions have lost two electrons to become positively charged.
Beryllium always has 4 protons. The most stable isotope has 5 neutrons. |