Luokat: Kaikki - charges - molecules - interaction - bonds

jonka Ana Rodriguez 1 vuosi sitten

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Chemical bonds

Chemical bonds play a crucial role in the interaction between molecules. Intermolecular bonds, such as Van der Waals forces, arise from uneven electron distribution, creating partial charges that attract molecules as they come closer, although these interactions are generally weak.

Chemical bonds

Chemical bonds

In physics, energy is the quantitative property that must be transferred to an object in order to perform work on, or to heat, the object. Energy is a conserved quantity; the law of conservation of energy states that energy can be converted in form, but not created or destroyed

Intermolecular bonds (attraction between molecules) generally weak

There are many different types of energy, which all fall into two primary forms – kinetic and potential.

Energy can transform from one type to another, but it can never be destroyed or created.

Van der Waals

Gravitational energy is a form of potential energy.

It is energy associated with gravity or gravitational force, in other words, the energy held by an object when it is in a high position compared to a lower position.

Give examples.

the electrons are not distributed evenly and create partial charges on each of the atom attracting as they get closer together.
weak interaction with nonpolar molecules
Hydrophobic interaction

Nuclear energy is stored in the nucleus of atoms.

This energy is released when the nuclei are combined (fusion) or split apart (fission).

Nuclear power plants split the nuclei of uranium atoms to produce electricity.

What element do they use to fuel nuclear power plants?

Example: CH's in water

The CH's gather in an mutual agreement because they dislike water.

nonpolar molecules interaction when placed in a polar environment
Ion-dipole interaction

Thermal energy is created from the vibration of atoms and molecules within substances. The faster they move, the more energy they possess and the hotter they become. Thermal energy is also called heat energy.

Give examples of heat energy.

Example: Na+ CL- and water molecules

the opposite partial charges are attracted to the opposite complete charge

The interaction between polar and ionic molecules
Dipole-dipole interaction

Motion energy or mechanical energy is the energy stored in objects; as objects move faster, more energy is stored.

Examples of motion energy include wind, a flowing river, etc.

Give more examples.

Example: Hydrogen bonds

polar molecules interaction with Hydrogen atoms bonded to either F, O, or N because they have a high electronegativity.

water properties

pH

basic

more than 7 with a lower H+ concentration

neutral

equal to 7 balance for organisms to live

acidic

less than 7 with a higher H+ concentration

Universal solvent

nonpolar

Polar or ionic

Denser as a liquid than solid

water has a lower volume than ice so ice would float. So then water would have a higher density than ice. Creating a crystal structure

Expansion upon freezing

Ice has a greater volume than its liquid form

So the ice will float in water and has the ability to insulate the temperature below ice so that organisms can still exist

As temperatures decrease the hydrogen bonds start to expand away from each other forming the hydrogen bonds not breaking them.

High heat of vaporization

water absorbing a high amount of heat breaking hydrogen bonds to not reform but vaporize (gas) leaving cool molecules back

High specific Heat

The ability for heat to absorb or lose some of the substance to change its temperature

Water molecules abosrbe heat and break hydrogen bonds but they are close enough to reform and release heat. No kinetic heat increase

helps moderate temperature

Cohesion and adhesion

Adhesion- Hydrogen bonds clinging to other molecules

Cohesion- hydrogen bonds in water sticking to other water molecules.

Surface tension- the cohesion of water molecules hydrogen bonds ability to hold the surface of a liquid.

Example
The interaction between polar and polar molecules.

Intramolecular bonds (bonds between atoms in a molecule)

Energy storage is the capture of energy produced at one time for use at a later time. A device that stores energy is generally called an accumulator or battery.

Ionic bonds (difference in electronegativity making it a complete charge)

Thermal energy storage is achieved with widely differing technologies.

Depending on the specific technology, it allows excess thermal energy to be stored and used hours, days, months later, at scales ranging from the individual process, to building or town.

What are 3 types of thermal energy?

Example: Na+ and Cl-

Cl- gains one electron to give it 8 valence electrons giving it one more electron than proton.

Na+ loses the one valence electron to complete the octet rule giving it one more proton than electrons

Covalent bonds (sharing of electrons)

The battery acquires its charged condition either by recharging or in the manufacturing of the unit.

During discharge, the chemical on the anode releases electrons, and ions in the electrolyte undergo an oxidation reaction.

Name the particular compounds in which energy is stored:

Nonpolar covalent

Example: CH's

There is no difference in their electronegativity so no pull and no partial charge.

Difference in electronegativity making the electrons unequally shared

Polar covalent

Example: H2O

The Oxygen has a higher electronegative pull so gains a partial negative and the Hydrogen gains a partial positive because being pulled by Oxygen.

No electronegative difference so the electrons are shared equally