If 2.000 g tungsten is reacted with 0.092 mL of 12.5 M sodium hydroxide and 0.092 mL of water, how many moles of gas could be produced? 2. If that gas produced from the conditions listed in #1 is funneled into a 20.00 mL vessel that is capped and kept at a temperature of 3.57 °C, what will be the pressure inside the vessel? 3. This reaction has a heat of reaction ΔH = –557.4 kJ/mol. With the same conditions listed in the previous problem (#1), how much energy is involved in this reaction? Indicate whether this energy is released or absorbed.
Types of Chemical Bonds
The attractive force which has the ability of holding various constituent elements like atoms, ions, molecules, etc. together in different chemical species is termed as a chemical bond. Chemical compounds are dependent on the strength of chemical bonds between its constituents. Stronger the chemical bond, more will be the stability in the chemical compounds. Hence, it can be said that bonding defines the stability of chemical compounds.
Polarizability In Organic Chemistry
Polarizability refers to the ability of an atom/molecule to distort the electron cloud of neighboring species towards itself and the process of distortion of electron cloud is known as polarization.
Coordinate Covalent Bonds
A coordinate covalent bond is also known as a dative bond, which is a type of covalent bond. It is formed between two atoms, where the two electrons required to form the bond come from the same atom resulting in a semi-polar bond. The study of coordinate covalent bond or dative bond is important to know about the special type of bonding that leads to different properties. Since covalent compounds are non-polar whereas coordinate bonds results always in polar compounds due to charge separation.
1. If 2.000 g tungsten is reacted with 0.092 mL of 12.5 M sodium hydroxide and 0.092 mL of water, how many moles of gas could be produced?
2. If that gas produced from the conditions listed in #1 is funneled into a 20.00 mL vessel that is capped and kept at a temperature of 3.57 °C, what will be the pressure inside the vessel?
3. This reaction has a heat of reaction ΔH = –557.4 kJ/mol. With the same conditions listed in the previous problem (#1), how much energy is involved in this reaction? Indicate whether this energy is released or absorbed.
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