Helium Is Diatomic



Learning Objective

  • Diatomic molecules are composed of only two atoms, of either the same or different chemical elements. Common diatomic molecules include hydrogen (H 2), nitrogen (N 2), oxygen (O 2), and carbon monoxide (CO).Seven elements exist as homonuclear diatomic molecules at room temperature: H 2, N 2, O 2, F 2, Cl 2, Br 2, and I 2.The bond in a homonuclear diatomic molecule is non-polar due to the.
  • The noble gases (helium, neon, argon, krypton, xenon, and radon) are also gases at STP, but they are monatomic. The homonuclear diatomic gases and noble gases together are called “elemental gases” or “molecular gases”, to distinguish them from other gases that are chemical compounds.

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Mobility

  • Recognize the properties of homonuclear diatomic molecules.

Key Points

  • Diatomic molecules are always linear.
  • Diatomic molecules have quantized energy levels for rotation and vibration.
  • The halogen series contains many homonuclear diatomic molecules.
  • Hydrogen, nitrogen, and oxygen are stable homonuclear diatomic molecules.

Terms

  • diatomicconsisting of two atoms
  • homonuclearhaving atoms of only one element, especially elements of only a single isotope

Diatomic molecules are composed of only two atoms, of either the same or different chemical elements. Common diatomic molecules include hydrogen (H2), nitrogen (N2), oxygen (O2), and carbon monoxide (CO). Seven elements exist as homonuclear diatomic molecules at room temperature: H2, N2, O2, F2, Cl2, Br2, and I2. The bond in a homonuclear diatomic molecule is non-polar due to the electronegativity difference of zero.

Geometry

All diatomic molecules are linear, which is the simplest spatial arrangement of atoms.

Energy Levels

It is convenient and common to represent a diatomic molecule as two point masses (the two atoms) connected by a massless spring. The energies involved in the molecule’s various motions can then be broken down into three categories:

  • Translational energies (the molecule moving from point A to point B)
  • Rotational energies (the molecule spinning about its axis)
  • Vibrational energies (the molecules vibrating in a variety of ways)
Show Sources

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http://www.boundless.com/
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http://en.wiktionary.org/wiki/diatomic
Wiktionary
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Helium is diatomic

http://en.wiktionary.org/wiki/homonuclear
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This is the SUPER easy guide on Helium element.

In fact, the table mentioned below is the perfect information box (Which gives you every single detail about the Helium element in Periodic table.)

So if you want to know anything about Helium element, then this guide is for you.

Let’s finish this very quickly.

Helium Element (He) Information

Helium in Periodic table

Helium element is in period 1 and group 18 of the Periodic table. Helium is the p-block element and it belongs to the Noble gases group.

HHe
LiBeBCNOFNe
NaMgAlSiPSClAr
KCaScTiVCrMnFeCoNiCuZnGaGeAsSeBrKr
RbSrYZrNbMoTcRuRhPdAgCdInSnSbTeIXe
CsBaLa*HfTaWReOsIrPtAuHgTlPbBiPoAtRn
FrRaAc**RfDbSgBhHsMtDsRgCnNhFlMcLvTsOg
*CePrNdPmSmEuGdTbDyHoErTmYbLu
**ThPaUNpPuAmCmBkCfEsFmMdNoLr

Why is Helium not in Group 2?

Do you know how many valence electrons helium has?

It has 2 valence electrons.

So it should be placed in group 2 of the Periodic table, but in reality it is not so.

It is placed in group 18 instead of placing it in group 2.

Why?

Let me explain to you the reasons why helium is not in Group 2 and why it is in group 18.

Helium is the element which has 2 electrons only, and these two electrons are nothing but they are the valence electrons.

Helium element is very happy and stable with these two electrons.

(Note: Generally for all the elements, octet is the stable configuration. But helium is the only exception in which duplet configuration is stable.)

Helium shows the very similar physical and chemical properties as that of the group 18 elements.
Helium element do not react with other elements and hence it is chemically inert.
As helium has the same properties (like that of neon, argon, krypton, xenon and radon), it is placed along with these elements (in group 18) and not in group 2.

I hope you have clearly understood the reason why helium is not in Group 2.

Why is Helium in Period 1?

First of all let me ask you a simple question.

How many shells or orbits does the helium element have?

It’s only one, right?

You have already seen the Bohr model of Helium atom in the above table. It has only one shell.

And the number of shells indicates the position of elements in the period.

Hence, as Helium has 1 shell, it lies in period 1.

Why is Helium in p-block?

Helium

Neon drive download. Before knowing this reason, first of all a simple question to you.

How can you determine the blocks wise position of elements?

The simple answer: The elements will lie in the s, p, d or f block will completely depend upon the subshell in which the last electron will enter.

For example; the electron configuration of Helium is 1s2.

So the last electron of helium enters the s-subshell or s-orbital.

Hence, helium should be placed in the s-block of Periodic table.

But it is not so. On the modern periodic table, helium is placed in the p-block instead of s-block.

This is because Helium shows similar properties as that of Noble gases.

As its properties are similar to the Noble gases, it is placed along with them in group 18 in p-block.

Is Helium explosive?

No.

Helium does not explode when it is subjected to fire.

There are many misconceptions regarding the explosion of helium gas.

You might have heard about the explosion of helium gas balloons.

But the fact is that it is not helium gas which is filled in the balloons. Art of weird.

The balloons which catch fire are the hydrogen gas balloons (not the helium gas balloons.)

Helium is a non explosive gas.

Helium is chemically inert gas and so it does not react with any other elements.

But sometimes the explosion of helium tanks may occur.

Why?

The reason is mechanical failure of the tank due to high pressure.

The helium tank is filled in the tank with a high pressure.

The pressure is so high that the helium gas becomes liquid inside the cylinder.

For storing the gas at such high pressure, the tanks must resist the high pressure of the gas.

If the tank is corroded or if it is non resistive to the high pressure, then there are chances of explosion of the cylinder.

Finally, I want to tell you that Helium gas is non reactive and non explosive. That means if you put an ignited matchstick near the pure helium gas, then it will not explode.

But sometimes explosion of helium tank occur due to mechanical failure, and not because of the chemical properties of the helium.

I hope this is now clear to you.

Why is Helium the Smallest atom?

Helium is the smallest atom with the atomic radius 140 picometer (van der Waals radius).

But the question is, why is helium the smallest atom?

You can understand the reason behind the smaller size of helium atom from the following two concepts.

  1. Periodic trends
  2. Effective nuclear charge

I’ll explain these two concepts in just few seconds. But first of all you should have some basic knowledge about Trends in Periodic table.

Trends are the changes in properties of elements across the period (from left to right) and down the group (from top to bottom) in the Periodic table.

Let’s come to the main point.

Here we want to know about the size of helium atom.

So the important question is;

What is the atomic size trend in the Periodic table?

The simple answer: Atomic size increases down the group (from top to bottom) and it decreases across the period (from left to right).

Now the helium atom is located at the far top-right side of the Periodic table.

So according to the Periodic trends, the size of helium atom is the smallest in entire Periodic table.

Now, let me explain the concept in another way.

As we move from left to right in the Periodic table, the effective nuclear charge increases.

Means the number of positively charged protons increases, which attracts the surrounding electrons with a greater force of attraction.

In simple words, the power of nucleus to pull the electrons towards itself will increase.

Now, helium has only one shell and it is also located at the right most column. So it’s electrons will be more attracted towards the nucleus.

Hence due to the attractive force towards the nucleus, the size of helium atoms shrinks.

Hence it is the smallest atom in the Periodic table.

Why is Helium a Noble Gas?

Is Helium A Diatomic Gas

Helium is a noble gas because it has completely filled outermost orbit.

The outermost orbit of helium atom has 2 electrons and it shows a stable duplet configuration.

In other words, the electron configuration of helium element is 1s2.

It has completely filled s-orbitals and it is stable.

Because of this stable configuration, it does not react with any other elements.

Hence, as the helium gas is chemically inert, it is called noble gas.

Also see:List and electronic configuration of Noble gases.

Is Helium Monatomic or Diatomic?

Helium is Monatomic.

Let me explain to you the reason behind this.

Helium has a stable duplet configuration.

In other words, it has two electrons in the outer shell and they are completely stable.

Helium atom do not require any other electrons for its stability.

Due to this stable configuration, the single atoms of helium are highly stable, and so helium exists as monatomic He and not as diatomic He2.

Helium Is Diatomic Definition

6 Interesting Facts about Helium element

The facts about helium element are mentioned below;

Helium Is Diatomic

Helium
  • Helium was first discovered in the Sun’s atmosphere (And not in Earth’s atmosphere.)
  • Helium is very very lighter than air. So it always escapes the earth atmosphere and it goes into space.
  • At absolute zero temperature, the helium gas becomes liquid and it shows the properties of superfluid.
  • Helium is the second most abundant element found in the Universe and it makes roughly up to 24% of it. (Note: Hydrogen is first and it is roughly 74% of all the elements in the universe)
  • On the earth, helium is obtained from the decay of radioactive elements like uranium and thorium.
  • Helium atom is the smallest atom out of all the known elements.

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References
Element data: Wikipedia, Chemspider.
Pierre Jules César Janssen: Image from Public domain, via Wikimedia Commons
Sir Joseph Norman Lockyer: Image by Stereoscopic Co., Public domain, via Wikimedia Commons
Helium dewer: Image by Zureks, CC BY-SA 3.0, via Wikimedia Commons