<span>When two atoms come near each other, sometimes they stick together to make a molecule. One way they can stick together is by covalent bonding.</span>
<span>In covalent bonding, the atoms are unstable because their outer rings of electrons aren't filled up. By sharing electrons with other atoms, these atoms can fill up their outer rings and become stable. In water, for instance, the oxygen atom needs two more electrons to be stable, and the hydrogen
atoms each need one. When they get together, the oxygen atom shares one
electron with each of the hydrogen atoms, and the hydrogen atoms each
share one electron with the oxygen atom.</span>
Now that the atoms have become stable, it's pretty hard to knock
them back into being unstable again, so covalent bonds are strong and
molecules that form with covalent (sharing) bonds are strong molecules.
<span>Covalent bonding makes very strong connections between the atoms,
so it's hard to break these molecules apart. On the other hand,
molecules that join with covalent bonds aren't very much attracted to
each other (unlike with ionic bonding), so they move freely around each
other. That means that most molecules that form covalent bonds make
either liquids or gases, like water and carbon dioxide. The main exception is metals,
which hold together using covalent bonding but are still solids. That's
why metals are so flexible and easy to melt so you can make them into
different shapes.</span>
Answer: 
Explanation:
Given
Mass of iron piece is 
Heat absorbed 
Temperature changes from 
i.e.
Heat absorbed is given by ![Q=mc\Delta T\quad [c=\text{specific heat of material}]](https://tex.z-dn.net/?f=Q%3Dmc%5CDelta%20T%5Cquad%20%5Bc%3D%5Ctext%7Bspecific%20heat%20of%20material%7D%5D)
Insert the values
Thus, the specific heat of iron is
You must burn 1.17 g C to obtain 2.21 L CO2 at
STP.
The balanced chemical equation is
C+02+ CO2.
Step 1. Convert litres of CO, to moles of CO2.
STP is 0 °C and 1 bar. At STP the volume of 1 mol
of an ideal gas is 22.71 L.
Moles of CO2= 2.21 L CO2 × (1 mol CO2/22.71 L
CO2) = 0.097 31 mol CO2
Step 2. Use the molar ratio of C:CO2 to convert
moles of CO to moles of C
Moles of C= 0.097 31mol CO2 × (1 mol C/1 mol
CO2) = 0.097 31mol C
Step 3. Use the molar mass of C to calculate the
mass of C
Mass of C= 0.097 31mol C × (12.01 g C/1 mol C) =
1.17 g C
It looks as if you are using the old (pre-1982)
definition of STP. That definition gives a value of
1.18 g C.
Answer:
The Lewis structure is attached with the answer -
Explanation:
Lewis structure or Lewis dot diagram are diagrams or representation of showing the bonding between different or same atoms of a molecule in any and also shows lone pairs of electrons that may exist in the molecule as dots.
HBrO₄ is bromine oxoacid which is also known as perbromic acid. It is a unstable inorganic compound.
The Lewis structure is attached in form of image with representation of lone pairs of electrons.
B, homeostasis. “Homeostasis is the state of steady internal, physical, and chemical conditions maintained by living systems.”
