Textbook Question
Give the electron configuration of the following elements.
(d) F
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1. A Review of General Chemistry
Atomic Structure
3:33 minutesProblem 14a
Textbook Question
How many electrons does an atom of each of the following elements need to lose to achieve a noble gas configuration? By losing that many electrons, which noble gas configuration is achieved?
(a) Beryllium
Verified step by step guidance1
Step 1: Identify the group number of beryllium (Be) in the periodic table. Beryllium is in Group 2, meaning it has 2 valence electrons in its outermost shell.
Step 2: Recall that atoms achieve a noble gas configuration by either losing or gaining electrons to have a full outer shell. For beryllium, losing electrons is the most favorable option because it is a metal.
Step 3: Determine the nearest noble gas to beryllium in the periodic table. The nearest noble gas is helium (He), which has a stable electron configuration of 1s².
Step 4: Write the electron configuration of beryllium: Be = 1s² 2s². To achieve the helium configuration, beryllium needs to lose the 2 electrons in the 2s orbital.
Step 5: Conclude that beryllium needs to lose 2 electrons to achieve the noble gas configuration of helium (He).
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Video duration:
3mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Noble Gas Configuration
Noble gas configuration refers to the electron arrangement of noble gases, which have full outer electron shells, making them stable and unreactive. Atoms tend to lose, gain, or share electrons to achieve this stable configuration, typically resembling the nearest noble gas in the periodic table.
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The Electron Configuration
Electron Loss in Metals
Metals, such as beryllium, typically lose electrons to achieve a stable electron configuration. Beryllium, with two valence electrons, will lose both to attain the electron configuration of helium, the nearest noble gas, which has a full outer shell.
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Periodic Table Trends
The periodic table displays trends in atomic structure and reactivity. Elements in the same group often exhibit similar behaviors regarding electron loss or gain. Understanding these trends helps predict how many electrons an element like beryllium will lose to achieve a noble gas configuration.
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