Linear Equations with Whole Numbers - Basic Arithmetic

Card 0 of 14

Question

Roman is ordering uniforms for the tennis team. He knows how many people are on the team and how many uniforms come in each box. Which equation can be used to solve for how many boxes Roman should order?

Answer

The total number of uniforms needed equals the number of students divided by the number of uniforms per box.

Compare your answer with the correct one above

Question

Dr. Jones charges a $50 flat fee for every patient. He also charges his patients $40 for every 10 minutes that he spends with him. If Mrs. Smith had an appointment that lasted 30 minutes, how much did she have to pay Dr. Jones?

Answer

We can express Dr. Jones's rate in a linear equation:

$\text{Cost}=$40(\text{number of 10 minute intervals})+50$

Since Mrs. Smith's appointment lasted 30 minutes, we have 3 10-minute intervals. Then, we can plug in that number into our above equation to find out how much the appointment cost.

$\text{Cost}=40(3)+50=120+50=170$

Compare your answer with the correct one above

Question

Jimmy had in lunch money for school. Everyday he spends for food and drinks. What is the expression that shows how much money will he have after each day, where is the days, and is the total amount of money left?

Answer

Jimmy starts off with $60, and spends $3.50 everyday.

This means that he will have $56.50 after day 1, $53 after day 2, and so forth.

Only one equation satisfies this scenario. The rest are irrelevant.

Compare your answer with the correct one above

Question

What is the solution of that satisfies both equations?

Answer

Reduce the second system by dividing by 3.

Second Equation:

We this by 3.

$\frac{12x}{3}+\frac{6y}{3}=\frac{24}{3}$

Then we subtract the first equation from our new equation.

First Equation:

First Equation - Second Equation:

Left Hand Side:

Right Hand Side:

Our result is:

Compare your answer with the correct one above

Question

What is the solution of for the systems of equations?

Answer

We add the two systems of equations:

For the Left Hand Side:

For the Right Hand Side:

So our resulting equation is:

Divide both sides by 10:

For the Left Hand Side:

$\frac{10x}{10}=x$

For the Right Hand Side:

$\frac{20}{10}=2$

Our result is:

Compare your answer with the correct one above

Question

What is the solution of for the two systems?

Answer

We first multiply the second equation by 4.

So our resulting equation is:

$x\cdot4+4y\cdot4=17\cdot4$

Then we subtract the first equation from the second new equation.

Left Hand Side:

Right Hand Side:

Resulting Equation:

We divide both sides by -15

Left Hand Side:

$\frac{-15y}{-15}=y$

Right Hand Side:

$\frac{-60}{-15}=4$

Our result is:

Compare your answer with the correct one above

Question

What is the solution of for the two systems of equations?

Answer

We first add both systems of equations.

Left Hand Side:

Right Hand Side:

Our resulting equation is:

We divide both sides by 3.

Left Hand Side:

$\frac{3x}{3}=x$

Right Hand Side:

$\frac{6}{3}=2$

Our resulting equation is:

Compare your answer with the correct one above

Question

Solve for .

Answer

First, add 6 to both sides so that the term with "x" is on its own.

Now, divide both sides by 2.

Compare your answer with the correct one above

Question

Solve:

Answer

The answer is . The goal is to isolate the variable, , on one side of the equation sign and have all numerical values on the other side of the equation.

Since is a negative number, you must add to both sides.

Then, divide both sides of the equation by :

$x=\frac{460}{20} = 23$

Compare your answer with the correct one above

Question

Solve for .

Answer

Start by isolating the term with to one side. Add 10 on both sides.

Divide both sides by 7.

Compare your answer with the correct one above

Question

If $\small \small 6x+9=45$ , what is $\small x$ equal to?

Answer

When solving an equation, we need to find a value of x which makes each side equal each other. We need to remember that $\small 6x+9$ is equal to and the same as $\small 45$ . When we solve an equation, if we make a change on one side, we therefore need to make the exact same change on the other side, so that the equation stays equal and true. To illustrate, let's take a numerical equation:

$\small \small 2\times3+4=10$

If we subtract $\small 4$ from each side, the equation still remains equal:

$\small 2\times3+4-4=10-4$

$\small 2\times3=6$

If we now divide each side by $\small 3$ , the equation still remains equal:

$\small \frac{2\times3}{3}=\frac{6}{3}$

$\small 2=2$

This still holds true even if we have variables in our equation. We can perform the inverse operations to isolate the variable on one side and find out what number it's equal to. To solve our problem then, we need to isolate our $\small x$ term. We can do that by subtracting $\small \small 9$ from each side, the inverse operation of adding $\small \small 9$ :

$\small 6x+9-9=45-9$

$\small 6x=36$

We now want there to be one $\small x$ on the left side. $\small 6x$ is the same thing as $\small 6\times x$ , so we can get rid of the 6 by performing the inverse operation on both sides, i.e. dividing each side by $\small 6$ :

$\small \frac{6x}{6}=\frac{36}{6}$

$\small x=6$ is therefore our final answer.

Compare your answer with the correct one above

Question

Solve for .

Answer

Start by adding 10 to both sides of the equation.

Then, divide both sides by .

Compare your answer with the correct one above

Question

Solve for t.

Answer

First start by distributing the 7.

Now, add both sides by 14.

Finally, divide both sides by 7.

Compare your answer with the correct one above

Question

Solve for :

Answer

First, add to both sides of the equation:

Then, divide both sides by :

Compare your answer with the correct one above

Tap the card to reveal the answer