Consumer Chemistry Reviewer (Q1) PDF

Summary

This document is a reviewer for consumer chemistry, covering topics such as the history of chemistry and branches of chemistry. It also describes the scientific method, including observation, hypothesis, and experimentation, making it a good study material for students.

Full Transcript

CONSUMER CHEMISTRY REVIEWER (Q1)

Lesson 1: Chemistry and Substances

Chemistry

The science that deals with the

properties, composition, and structure of

substances (defined as elements and

compounds), and the transformations

they undergo.

Brief history of chemistry

-The word "chemistry' in arabic is

'kimia' (elixir, alchemy) with

'al'(the). Thus, al kemia = the

chemistry or alchemy in old english.

-Jabir Ibn hayyan (Geber)"Father of Chemistry"

BRANCHES OF CHEMISTRY

1\. Organic Chemistry - study of carbon

compounds (such as fuels) and the

chemicals in living organism.

2\. Inorganic Chemistry - the study

of the production, reactions, and

properties of all compounds that

do not contain carbon-hydrogen

atoms.

3\. Analytical Chemistry - is the study involving how we

analyse the chemical components of a sample.

\*Qualitative Analysis - it employs methods and

measurements to help determine the components of

substances.

\*Quantitative Analysis - it helps determine how much of

each component is present in a substance.

4\. Biochemistry - is the study of chemical

processes that occur inside living organisms.

\*Enzymology - study of enzymes

\*Endocrinology - study of hormones

\*Clinical Biochemistry - study of diseases

\*Molecular Biochemistry - study of biomolecules and their functions

5\. Industrial Chemistry - is a branch of

chemistry that uses chemical and

physical processes to transform raw

materials into products that are

beneficial to mankind.

6\. Nuclear Chemistry - is the study of

reactions that involve changes in

nuclear structure. Nuclear chemistry

deals with nuclear reactions, or

reactions that happen inside atoms

7\. Modern Nuclear Chemistry or

Radiochemistry - ranging from the

study of the formation of elements in

the universe to the design of

radioactive drugs or diagnostic

medicine.

Elements

-An element is made up of atoms--- a

chemical substance that cannot be

broken down into other substances by

chemical reactions.

Compounds

-Chemical compound, a substance made

from two or more different elements

that have been chemically joined.

Mixtures and States of Matter

Mixtures

-is a physical combination of two or more substances and can also be
physically separated

Types of mixture

1\. Heterogeneous mixture - unevenly distributed and non uniform

2.Homogenous mixture - evenly distributed and are uniform

Matter

-made from various particles, it occupies physical space and has inertia

3 Fundamental States of matter

1\. Solid - has definite shape and volume

2.Liquids - are able to flow

3.Gas - has the ability to expand, it\'s there everywhere but you can\'t
see it

States of matter

1\. Plasma - when one or more electrons are stripped from the atom due to
heat

2.Bose-Einstein Condensate - happens when the temperature reaches
absolute zero

3.Quark-Gluon Plasma - when the density and temperature are so high that
protons and neutrons melt and it is 100,000× hotter than the sun

4.Degenerate matter - gas become compressed and super cold that it forms
degenerate gas, this type of matter behaves more like a solid

Lesson 2: Applying Scientific Attitude in the Scientific Method

Hindi na raw kasali yung scientific attitude (correct me if I\'m wrong
please)

Scientific Method

-This is not a formula but a process with several sequential steps
designed to create an explainable outcome that increases our knowledge
base.

-It also involves a series of steps that are use to investigate a
natural occurrence

SEEPS

Step 1: Making an Observation

-Every researcher starts at the very beginning. Before diving and
exploding something, one must determine what they will study. By making
observations, researchers can establish an area of interests

-You can use the 5 senses

Gustatory - taste

Olfactory - smell

Visual - sight

Auditory - hearing

Tactile - touch

Step 2: Ask a Question

-Once a researcher has made observations and conducted background
research, the next step is to asking a scientific questions like "What
is the effect of\...?" or "How does x affect y?"

Step 3: Form a Hypothesis

-A hypothesis is an educated guess about the relationship between two or
more variables. Educated guess based on your observation and background
research.

2 Types of Hypothesis

Alternative hypothesis - predicts that there\'s no relationship between
the 2 variables

Null hypothesis - predicts there\'s no relationship between 2 variables

Step 4: Run an Experiment

Variables to identify

Independent variable - the variable you change or manipulate

Dependent variable - the variable you measure or observe

Control variable - variable that keep unchanged throughout the study

Step 5: Collect and Analyze Data

-Collect your measurements and analyze them to see if they support your
hypothesis or not

Step 6: Conclusion

-Your conclusions will summarize whether or not your science fair
project result supports or contradict your original hypothesis.

Lesson 3: Scientific Notation

Scientific Notation

-A form of presenting very large numbers of very small ones in a simpler
form. The numbers which are present at the millions place headed to be
represented in a simpler form. Thus, it is difficult to represent a few
numbers in their expanded form. Hence, we use scientific notation.

History of Scientific Notation

-The idea of scientific notation was developed by Archimedes in the
3^rd^ Century BC, where he outlined a system for calculating the number
of grains of sand in the universe, which he found to be 1 followed by 63
zeroes. His work was based on place value, a novel concept at the time.

Quantitative Chemistry

-Is the branch of chemistry that allows chemists to apply maths to
chemical equations to work out the amount of different substances
present.

Qualitative Chemistry

-Is the branch of chemistry that deals with the identification of
elements or grouping of elements present in a sample. The techniques
employed in a qualitative analysis vary in complexity, depending in the
nature of the sample.

Powers and Exponents

-Ways to represent very large or small numbers

Exponents

-An exponent of a number represents the number of specific number is
multiplied to itself

-If 8 is multiplied to itself for n times, then it is represented as
8×8×8×8×8\....n times = 8n

History of Exponents

-The first recorded use of scientific notation can be traced to the 154r
book of Arithmetica Integra, written by English Mathematician Micheal
Stifel (1487 -- 1567). It was Rene Descartes, however, who saw the true
significance and mathematical implications of such notation.

-Exponential notation not only saves space and lessens the mental energy
required to process the relevant information. It is critical for writing
large numbers.

Importance of Zero

-Zero helps us understand and explain concepts that do not have physical
forms. The number zero is used as a placeholder in the place value
system. For example, two zeros before a number indicate a hundred
position, while a single zero before a digit indicates a tens position.

Rules of Scientific Notation

-The base should always be 10

-The exponents must be a non -- zero integer, that means it can be +/-

-The absolute value of the coefficient is \>1 but it should be \