Exercise: Properties of Equality

This demonstrates the Multiplicative Property of Equality: multiplying both sides of an equation by the same number preserves equality.

That is, if $a = b$, then $a \times c = b \times c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \Rightarrow a \times c = b \times c$.

This demonstrates the Transitive Property of Equality: if one quantity equals a second, and the second equals a third, then the first equals the third.

That is, if $a = b \land b = c$, then $a = c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \land b = c \Rightarrow a = c$.

This demonstrates the Reflexive Property, which states that any real number is equal to itself.

That is, $a = a$.

The full mathematical statement is: $\text{For all } a \in \mathbb{R},\ a = a$.

This demonstrates the Multiplicative Property of Equality: multiplying both sides of an equation by the same number preserves equality.

That is, if $a = b$, then $a \times c = b \times c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \Rightarrow a \times c = b \times c$.

This demonstrates the Cancellation Property w.r.t. Addition: if the same value is added to both sides of an equation, it can be removed (canceled) without affecting the equality.

That is, if $a + c = b + c$ then $a = b$.

Formally: $\text{For all } a, b, c \in \mathbb{R},\ a \circ c = b \circ c \Rightarrow a = b$ where $\circ$ is +.

This demonstrates the Additive Property of Equality: adding the same value to both sides of an equation preserves equality.

That is, if $a = b$, then $a + c = b + c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \Rightarrow a + c = b + c$.

This demonstrates the Symmetric Property, which states that if one number is equal to another, then the second is equal to the first.

That is, if $a = b$, then $b = a$.

The formal statement is: $\text{For all } a, b \in \mathbb{R},\ \text{if } a = b \text{ then } b = a$.

This demonstrates the Transitive Property of Equality: if one quantity equals a second, and the second equals a third, then the first equals the third.

That is, if $a = b \land b = c$, then $a = c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \land b = c \Rightarrow a = c$.

This demonstrates the Additive Property of Equality: adding the same value to both sides of an equation preserves equality.

That is, if $a = b$, then $a + c = b + c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \Rightarrow a + c = b + c$.

This demonstrates the Transitive Property of Equality: if one quantity equals a second, and the second equals a third, then the first equals the third.

That is, if $a = b \land b = c$, then $a = c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \land b = c \Rightarrow a = c$.

This demonstrates the Multiplicative Property of Equality: multiplying both sides of an equation by the same number preserves equality.

That is, if $a = b$, then $a \times c = b \times c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \Rightarrow a \times c = b \times c$.

This demonstrates the Cancellation Property w.r.t. Addition: if the same value is added to both sides of an equation, it can be removed (canceled) without affecting the equality.

That is, if $a + c = b + c$ then $a = b$.

Formally: $\text{For all } a, b, c \in \mathbb{R},\ a \circ c = b \circ c \Rightarrow a = b$ where $\circ$ is +.

This demonstrates the Cancellation Property w.r.t. Addition: if the same value is added to both sides of an equation, it can be removed (canceled) without affecting the equality.

That is, if $a + c = b + c$ then $a = b$.

Formally: $\text{For all } a, b, c \in \mathbb{R},\ a \circ c = b \circ c \Rightarrow a = b$ where $\circ$ is +.

This demonstrates the Reflexive Property, which states that any real number is equal to itself.

That is, $a = a$.

The full mathematical statement is: $\text{For all } a \in \mathbb{R},\ a = a$.

This demonstrates the Additive Property of Equality: adding the same value to both sides of an equation preserves equality.

That is, if $a = b$, then $a + c = b + c$.

The formal statement is: $\text{For all } a, b, c \in \mathbb{R},\ a = b \Rightarrow a + c = b + c$.