How to add variables - ISEE Middle Level Quantitative Reasoning

Card 0 of 360

Question

Which quantity is greater if ?

$(a)\ -x^2+2$

$(b)\ x^2+2$

Answer

We know that is always positive for all values of . Therefore would be negative for all values of . From this conclusion, we know:

So we have:

is the greater quantity.

Compare your answer with the correct one above

Question

Which quantity is greater if ?

$(b)\ x^3+2$

Answer

A positive number raised to the third power will be positive, while a negative number raised to the third power will remain negative.

If , then and .

If , then and .

Since we do not know if is positive or negative, we cannot draw a conclusion about which option is greater.

If , then is greater.

If , then is greater.

Compare your answer with the correct one above

Question

Which quantity is greater if ?

$(b)\ x^3+x+1$

Answer

When we can write:

$x^3>0\ \text{and}\ -x^3<0$

We know that and . Based on this, we can compare the two given quantities.

is the greater quantity.

Compare your answer with the correct one above

Question

Which quantity is greater if $x\geq 3$ ?

$(a)\ x^2-6x+10$

$(b)\ 0$

Answer

We know that is greater than . We can easily test a few values for to determine if the values are increasing or decreasing.

If :

If :

If :

The value of is increasing, with the smallest possible value being . From this, we know that , so .

Compare your answer with the correct one above

Question

Which of the following is equivalent to ?

Answer

Using the distributive property:

and

Using the associative property of multiplication:

$4 \cdot 4t =\left ( 4 \cdot 4 \right ) t= 16t$

We can rewrite $16t \div 8$ as $16t \cdot \frac{1}{8}$ ; using the commutative and associative properties of multiplication:

$16t \cdot \frac{1}{8} = \left ( 16 \cdot \frac{1}{8} \right ) \cdot t = 2t$

is the sum of unlike terms and cannot be simplified.

is the correct choice.

Compare your answer with the correct one above

Question

Which of the following is equivalent to ?

Answer

The expression is the sum of two unlike terms, and therefore cannot be further simplified. None of these responses is correct.

Compare your answer with the correct one above

Question

is a positive integer.

Which is the greater quantity?

(A)

(B)

Answer

Depending on the value of , it is possible for either expression to be greater or for both to be equal.

Case 1:

$5t + 8t + 7 = 5 \cdot 1 + 8 \cdot 1 + 7 = 5 + 8 + 7 = 20$

and

$5+ 8t + 7t = 5+ 8 \cdot 1 + 7 \cdot 1 = 5 + 8 + 7 = 20$

So the two are equal.

Case 2:

$5t + 8t + 7 = 5 \cdot 2 + 8 \cdot 2 + 7 = 10 + 16 + 7 = 33$

and

$5+ 8t + 7t = 5+ 8 \cdot 2 + 7 \cdot 2 = 5 + 16 + 14 = 35$

So (B) is greater.

The correct response is that it cannot be determined which is greater.

Compare your answer with the correct one above

Question

is a positive integer.

Which is the greater quantity?

(A)

(B)

Answer

$8t + 7 + 5t + 9 = \left ( 8 + 5 \right ) t + 9+ 7 = 13t + 16$

Since , , so (A) is greater regardless of the value of .

Compare your answer with the correct one above

Question

is a positive integer.

Which is the greater quantity?

(A)

(B)

Answer

Since , and is positive,

then by the multiplication property of inequality,

making (A) greater regardless of the value of .

Compare your answer with the correct one above

Question

is a positive integer.

Which is the greater quantity?

(A)

(B)

Answer

Regardless of the value of , the expressions are equal.

Compare your answer with the correct one above

Question

Define an operation on the real numbers as follows:

For all real values of and ,

$a \bigstar b = ab-a+b$

is a positive number. Which is the greater quantity?

(a) $N \bigstar N$

(b) $(-N) \bigstar (-N)$

Answer

$a \bigstar b = ab-a+b$

so

$N \bigstar N =N \cdot N -N+N = N^{2}-N+N = N^{2}$

and

$(-N) \bigstar (-N) = (-N) \cdot (-N) - (-N) + (-N)$

$= (-1) \cdot N \cdot (-1) \cdot N+N - N$

$= N^{2}+N-N$

$= N^{2}$

The two are equal regardless of the value of .

Compare your answer with the correct one above

Question

Which is the greater quantity?

(a)

(b) 18

Answer

The information is insufficient, as we see by exploring two cases:

Case 1: $A = B = C = 5\frac{1}{3}$

$A+ B + C = 5\frac{1}{3}+ 5\frac{1}{3} + 5\frac{1}{3} = 16 < 18$

Case 2: $A = B = C = 6\frac{1}{3}$

$A+ B + C = 6\frac{1}{3}+ 6\frac{1}{3} + 6\frac{1}{3} =19 > 18$

Remember, the three variables need not stand for whole numbers.

Compare your answer with the correct one above

Question

and are both negative numbers. Which is the greater quantity?

(a) $(x \div 5) + 0.1 y$

(b) $0.2 x + (y \div 10)$

Answer

The two quantities are equal regardless of the values of and . To see this, we note that

$0.2 x = \frac{2}{10} x = \frac{1}{5} x = \frac{x}{5} = x \div 5$

and

$0.1y = \frac{1}{10} y = \frac{y}{10} = y \div 10$

Therefore, by the addition property of equality,

$0.2 x + (y \div 10) =( x \div 5 )+ 0.1 y$

Compare your answer with the correct one above

Question

Simplify

$x^{1}y^{3}+ xy^{3} +x^{2}y^{3}=$

Answer

In order to add variables the terms must be like. In order for terms to be like, the variables must be exactly alike also being raised to the same power by the exponent.

In this case the like terms are $x^{1}y^{3}$ and $xy^{3}$ . Just because there is a 1 in the exponent for the first term doesnt mean it is different from the second term. With exponents if a variable does not show an exponent, that means it is still to the first power.

We add the coefficients of the like terms. The coefficient is the number in front of the first variable, in this case it is 1 for both terms because of the identity property of multiplication stating any variable, term, or number multiplied by 1 is itself.

$x^{1}y^{3}= 1(x^1y^3)$

Our last term is not like because the variable is raised to a different power than the other two. In this case we do not combine it to the like terms, we just add it to the end of the term.

Compare your answer with the correct one above

Question

Simplify the following:

Answer

When solving this problem we need to remember our order of operations, or PEMDAS.

PEMDAS stands for parentheses, exponents, multiplication/division, and addition/subtraction. When you have a problem with several different operations, you need to solve the problem in this order and you work from left to right for multiplication/division and addition/subtraction.

Parentheses: We are not able to add a variable to a number, so we move to the next step.

Multiplication: We can distribute (or multiply) the .

$=-45 + 8 \cdot x +8 \cdot6$

Addition/Subtraction: Remember, we can't add a variable to a number, so the is left alone.

Now we have

Compare your answer with the correct one above

Question

Answer

Add the numbers and keep the variable:

Answer:

Compare your answer with the correct one above

Question

Answer

Add the numbers and keep the variable:

Answer:

Compare your answer with the correct one above

Question

Answer

Add the numbers and keep the variable:

Answer:

Compare your answer with the correct one above

Question

Simplify:

Answer

First, group together your like variables:

The only like variables needing to be combined are the x-variables. You can do this in steps or all at once:

Compare your answer with the correct one above

Question

Simplify:

Answer

First, move the like terms to be next to each other:

Now, combine the x-variables and the y-variables:

Compare your answer with the correct one above

Tap the card to reveal the answer