Elementary Mathematics

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## Strands of elementary mathematics

### Number Sense and Numeration

### Spatial Sense

### Equations and formulas

### Data

### Basic two-dimensional geometry

### Proportions

### Analytic geometry

### Negative numbers

### Exponents and radicals

### Compass-and-straightedge

### Congruence and similarity

### Three-dimensional geometry

### Rational numbers

### Patterns, relations and functions

### Slopes and trigonometry

## United States

## References

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

Elementary Mathematics

The examples and perspective in this article deal primarily with Ontario and do not represent a worldwide view of the subject. (May 2020) |

**Elementary mathematics** consists of mathematics topics frequently taught at the primary or secondary school levels.

In the Canadian curriculum, there are six basic strands in Elementary Mathematics: Number, Algebra, Data, Spatial Sense, Financial Literacy, and Social emotional learning skills and math processes. These six strands are the focus of Mathematics education from grade 1 through grade 8.^{[2]}

In secondary school, the main topics in elementary mathematics from grade nine until grade ten are: Number Sense and algebra, Linear Relations, Measurement and Geometry.^{[3]} Once students enter grade eleven and twelve students begin university and college preparation classes, which include: Functions, Calculus & Vectors, Advanced Functions, and Data Management.^{[4]}

Number Sense is an understanding of numbers and operations. In the 'Number Sense and Numeration' strand students develop an understanding of numbers by being taught various ways of representing numbers, as well as the relationships among numbers.^{[5]}

Properties of the natural numbers such as divisibility and the distribution of prime numbers, are studied in basic number theory, another part of elementary mathematics.

Elementary Focus

- Abacus
- LCM and GCD
- Fractions and Decimals
- Place Value & Face Value
- Addition and subtraction
- Multiplication and Division
- Counting
- Counting Money
- Algebra
- Representing and ordering numbers
- Estimating
- Approximating
- Problem Solving

To have a strong foundation in mathematics and to be able to succeed in the other strands students need to have a fundamental understanding of number sense and numeration.

'Measurement skills and concepts' or 'Spatial Sense' are directly related to the world in which students live. Many of the concepts that students are taught in this strand are also used in other subjects such as science, social studies, and physical education^{[6]} In the measurement strand students learn about the measurable attributes of objects, in addition to the basic metric system.

Elementary Focus

- Standard and non-standard units of measurement
- telling time using 12 hour clock and 24 hour clock
- comparing objects using measurable attributes
- measuring height, length, width
- centimetres and metres
- mass and capacity
- temperature change
- days, months, weeks, years
- distances using kilometres
- measuring kilograms and litres
- determining area and perimeter
- determining grams and millilitre
- determining measurements using shapes such as a triangular prism

The measurement strand consists of multiple forms of measurement, as Marian Small states: "Measurement is the process of assigning a qualitative or quantitative description of size to an object based on a particular attribute."^{[7]}

A formula is an entity constructed using the symbols and formation rules of a given logical language.^{[8]} For example, determining the volume of a sphere requires a significant amount of integral calculus or its geometrical analogue, the method of exhaustion;^{[9]} but, having done this once in terms of some parameter (the radius for example), mathematicians have produced a formula to describe the volume.

An equation is a formula of the form *A* = *B*, where *A* and *B* are expressions that may contain one or several variables called **unknowns**, and "=" denotes the equality binary relation. Although written in the form of proposition, an equation is not a statement that is either true or false, but a problem consisting of finding the values, called **solutions**, that, when substituted for the unknowns, yield equal values of the expressions *A* and *B*. For example, 2 is the unique *solution* of the *equation* *x* + 2 = 4, in which the *unknown* is *x*.^{[10]}

Data is a set of values of qualitative or quantitative variables; restated, pieces of data are individual pieces of information. Data in computing (or data processing) is represented in a structure that is often tabular (represented by rows and columns), a tree (a set of nodes with parent-children relationship), or a graph (a set of connected nodes). Data is typically the result of measurements and can be visualized using graphs or images.

Data as an abstract concept can be viewed as the lowest level of abstraction, from which information and then knowledge are derived.

Two-dimensional geometry is a branch of mathematics concerned with questions of shape, size, and relative position of two-dimensional figures. Basic topics in elementary mathematics include polygons, circles, perimeter and area.

A polygon is a shape that is bounded by a finite chain of straight line segments closing in a loop to form a closed chain or *circuit*. These segments are called its *edges* or *sides*, and the points where two edges meet are the polygon's *vertices* (singular: vertex) or *corners*. The interior of the polygon is sometimes called its *body*. An ** n-gon** is a polygon with

A circle is a simple shape of two-dimensional geometry that is the set of all points in a plane that are at a given distance from a given point, the center.The distance between any of the points and the center is called the radius. It can also be defined as the locus of a point equidistant from a fixed point.

A perimeter is a path that surrounds a two-dimensional shape. The term may be used either for the path or its length - it can be thought of as the length of the outline of a shape. The perimeter of a circle or ellipse is called its circumference.

Area is the quantity that expresses the extent of a two-dimensional figure or shape. There are several well-known formulas for the areas of simple shapes such as triangles, rectangles, and circles.

Two quantities are proportional if a change in one is always accompanied by a change in the other, and if the changes are always related by use of a constant multiplier. The constant is called the coefficient of proportionality or **proportionality constant**.

- If one quantity is always the product of the other and a constant, the two are said to be
*directly proportional*. are directly proportional if the ratio is constant. - If the product of the two quantities is always equal to a constant, the two are said to be
*inversely proportional*. are inversely proportional if the product is constant.

Analytic geometry is the study of geometry using a coordinate system. This contrasts with synthetic geometry.

Usually the Cartesian coordinate system is applied to manipulate equations for planes, straight lines, and squares, often in two and sometimes in three dimensions. Geometrically, one studies the Euclidean plane (2 dimensions) and Euclidean space (3 dimensions). As taught in school books, analytic geometry can be explained more simply: it is concerned with defining and representing geometrical shapes in a numerical way and extracting numerical information from shapes' numerical definitions and representations.

Transformations are ways of shifting and scaling functions using different algebraic formulas.

A negative number is a real number that is less than zero. Such numbers are often used to represent the amount of a loss or absence. For example, a debt that is owed may be thought of as a negative asset, or a decrease in some quantity may be thought of as a negative increase. Negative numbers are used to describe values on a scale that goes below zero, such as the Celsius and Fahrenheit scales for temperature.

Exponentiation is a mathematical operation, written as ** b^{n}**, involving two numbers, the

Roots are the opposite of exponents. The nth root of a number *x* (written ) is a number *r* which when raised to the power *n* yields *x*. That is,

where *n* is the *degree* of the root. A root of degree 2 is called a *square root* and a root of degree 3, a *cube root*. Roots of higher degree are referred to by using ordinal numbers, as in *fourth root*, *twentieth root*, etc.

For example:

- 2 is a square root of 4, since 2
^{2}= 4. - -2 is also a square root of 4, since (-2)
^{2}= 4.

Compass-and-straightedge, also known as ruler-and-compass construction, is the construction of lengths, angles, and other geometric figures using only an idealized ruler and compass.

The idealized ruler, known as a straightedge, is assumed to be infinite in length, and has no markings on it and only one edge. The compass is assumed to collapse when lifted from the page, so may not be directly used to transfer distances. (This is an unimportant restriction since, using a multi-step procedure, a distance can be transferred even with a collapsing compass, see compass equivalence theorem.) More formally, the only permissible constructions are those granted by Euclid's first three postulates.

Two figures or objects are congruent if they have the same shape and size, or if one has the same shape and size as the mirror image of the other.^{[11]} More formally, two sets of points are called **congruent** if, and only if, one can be transformed into the other by an isometry, i.e., a combination of **rigid motions**, namely a translation, a rotation, and a reflection. This means that either object can be repositioned and reflected (but not resized) so as to coincide precisely with the other object. So two distinct plane figures on a piece of paper are congruent if we can cut them out and then match them up completely. Turning the paper over is permitted.

Two geometrical objects are called similar if they both have the same shape, or one has the same shape as the mirror image of the other. More precisely, one can be obtained from the other by uniformly scaling (enlarging or shrinking), possibly with additional translation, rotation and reflection. This means that either object can be rescaled, repositioned, and reflected, so as to coincide precisely with the other object. If two objects are similar, each is congruent to the result of a uniform scaling of the other.

Solid geometry was the traditional name for the geometry of three-dimensional Euclidean space. **Stereometry** deals with the measurements of volumes of various **solid figures** (three-dimensional figures) including pyramids, cylinders, cones, truncated cones, spheres, and prisms.

Rational number is any number that can be expressed as the quotient or fraction *p*/*q* of two integers, with the denominator *q* not equal to zero.^{[12]} Since *q* may be equal to 1, every integer is a rational number. The set of all rational numbers is usually denoted by a boldface **Q** (or blackboard bold ).

A pattern is a discernible regularity in the world or in a manmade design. As such, the elements of a pattern repeat in a predictable manner. A **geometric pattern** is a kind of pattern formed of geometric shapes and typically repeating like a wallpaper.

A relation on a set *A* is a collection of ordered pairs of elements of *A*. In other words, it is a subset of the Cartesian product *A*^{2} = . Common relations include divisibility between two numbers and inequalities.

A **function**^{[13]} is a relation between a set of inputs and a set of permissible outputs with the property that each input is related to exactly one output. An example is the function that relates each real number *x* to its square *x*^{2}. The output of a function *f* corresponding to an input *x* is denoted by *f*(*x*) (read "*f* of *x*"). In this example, if the input is −3, then the output is 9, and we may write *f*(−3) = 9. The input variable(s) are sometimes referred to as the argument(s) of the function.

The slope of a line is a number that describes both the *direction* and the *steepness* of the line.^{[14]} Slope is often denoted by the letter *m*.^{[15]}

Trigonometry is a branch of mathematics that studies relationships involving lengths and angles of triangles. The field emerged during the 3rd century BC from applications of geometry to astronomical studies.^{[16]} The slope is studied in grade 8.

In the United States, there has been considerable concern about the low level of elementary mathematics skills on the part of many students, as compared to students in other developed countries.^{[17]} The No Child Left Behind program was one attempt to address this deficiency, requiring that all American students be tested in elementary mathematics.^{[18]}

**^**Enderton, Herbert (1977).*Elements of set theory*. Academic Press. p. 138. ISBN 0-12-238440-7.: "...select two sets*K*and*L*with card*K*= 2 and card*L*= 3. Sets of fingers are handy; sets of apples are preferred by textbooks."**^***The Ontario Curriculum Grades 1-8 Mathematics*. Toronto Ontario: Ontario Ministry of Education. 2005. pp. 8-10. ISBN 0-7794-8121-6.**^***The Ontario Curriculum Grades 9-10 Mathematics*. Toronto, Ontario: Ontario Ministry of Education. 2005. p. 9.**^***The Ontario Curriculum Grades 11-12 Mathematics*. Toronto Ontario: Ontario Ministry of Education. 2007. pp. 13-14.**^***The Ontario Curriculum Grade 1-8, Mathematics*. Toronto, Ontario: Ontario Ministry of Education. 2005. p. 8. ISBN 0-7794-8121-6.**^***The Ontario Curriclum Grades 1-8 Mathematics*. Toronto Ontario: Ontario Ministry of Education. 2005. p. 8. ISBN 0779481216.**^**Small, Marian (2017).*Making Math Meaningful To Canadian Students, K-8 3rd edition*. Toronto: Nelson Education. p. 465. ISBN 978-0-17-658255-5.**^**Rautenberg, Wolfgang (2010),*A Concise Introduction to Mathematical Logic*(3rd ed.), New York, NY: Springer Science+Business Media, doi:10.1007/978-1-4419-1221-3, ISBN 978-1-4419-1220-6**^**Smith, David E (1958).*History of Mathematics*. New York: Dover Publications. ISBN 0-486-20430-8.**^**"Equation".*Dictionary.com*. Dictionary.com, LLC. Retrieved .**^**Clapham, C.; Nicholson, J. (2009). "Oxford Concise Dictionary of Mathematics, Congruent Figures" (PDF). Addison-Wesley. p. 167. Archived from the original (PDF) on 2013-10-29.**^**Rosen, Kenneth (2007).*Discrete Mathematics and its Applications*(6th ed.). New York, NY: McGraw-Hill. pp. 105, 158-160. ISBN 978-0-07-288008-3.**^**The words**map**or**mapping**,**transformation**,**correspondence**, and**operator**are often used synonymously. Halmos 1970, p. 30 .**^**Clapham, C.; Nicholson, J. (2009). "Oxford Concise Dictionary of Mathematics, Gradient" (PDF). Addison-Wesley. p. 348. Archived from the original (PDF) on 2013-10-29.**^**Weisstein, Eric W. "Slope". MathWorld--A Wolfram Web Resource.**^**R. Nagel (ed.),*Encyclopedia of Science*, 2nd Ed., The Gale Group (2002)**^**Liping Ma,*Knowing and Teaching Elementary Mathematics: Teachers' Understanding of Fundamental Mathematics in China and the United States (Studies in Mathematical Thinking and Learning.)*, Lawrence Erlbaum, 1999, ISBN 978-0-8058-2909-9.**^**Frederick M. Hess and Michael J. Petrilli,*No Child Left Behind*, Peter Lang Publishing, 2006, ISBN 978-0-8204-7844-9.

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

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