All ISEE Middle Level Quantitative Resources
Example Questions
Example Question #62 : Grade 6
Red is a very popular car color. A production company manufactures cars and parks them in a lot behind the plant. There are cars in the parking lot and of them are red. How many red cars are in the parking lot?
We can use ratios and proportions to solve this problem. Percentages can be written as ratios. The word “percent” means for every hundred. In the problem, we are told that of the cars are red. In other words, for every hundred cars of them are red. We can write the following ratio:
Reduce.
We know that there are cars in the parking lot. We can write the following ratio by substituting the variable for the number of red cars:
Now, we can create a proportion using our two ratios.
Cross multiply and solve for .
Simplify.
Divide both sides of the equation by .
Solve.
There are red cars in the parking lot.
Example Question #10 : Find A Percent Of A Quantity As A Rate Per 100: Ccss.Math.Content.6.Rp.A.3c
Red is a very popular car color. A production company manufactures cars and parks them in a lot behind the plant. There are cars in the parking lot and of them are red. How many red cars are in the parking lot?
We can use ratios and proportions to solve this problem. Percentages can be written as ratios. The word “percent” means for every hundred. In the problem, we are told that of the cars are red. In other words, for every hundred cars of them are red. We can write the following ratio:
Reduce.
We know that there are cars in the parking lot. We can write the following ratio by substituting the variable for the number of red cars:
Now, we can create a proportion using our two ratios.
Cross multiply and solve for .
Simplify.
Divide both sides of the equation by .
Solve.
There are red cars in the parking lot.
Example Question #81 : Ratio And Proportion
Red is a very popular car color. A production company manufactures cars and parks them in a lot behind the plant. There are cars in the parking lot and of them are red. How many red cars are in the parking lot?
We can use ratios and proportions to solve this problem. Percentages can be written as ratios. The word “percent” means for every hundred. In the problem, we are told that of the cars are red. In other words, for every hundred cars of them are red. We can write the following ratio:
Reduce.
We know that there are cars in the parking lot. We can write the following ratio by substituting the variable for the number of red cars:
Now, we can create a proportion using our two ratios.
Cross multiply and solve for .
Simplify.
Divide both sides of the equation by .
Solve.
There are red cars in the parking lot.
Example Question #111 : Ratio And Proportion
Red is a very popular car color. A production company manufactures cars and parks them in a lot behind the plant. There are cars in the parking lot and of them are red. How many red cars are in the parking lot?
We can use ratios and proportions to solve this problem. Percentages can be written as ratios. The word “percent” means for every hundred. In the problem, we are told that of the cars are red. In other words, for every hundred cars of them are red. We can write the following ratio:
Reduce.
We know that there are cars in the parking lot. We can write the following ratio by substituting the variable for the number of red cars:
Now, we can create a proportion using our two ratios.
Cross multiply and solve for .
Simplify.
Divide both sides of the equation by .
Solve.
There are red cars in the parking lot.
Example Question #251 : Numbers And Operations
40% of is 200
70% of is 350
Which is the greater quantity?
(a)
(b)
(a) and (b) are equal
(b) is greater
It is impossible to tell from the information given
(a) is greater
(a) and (b) are equal
Each statement can be written as a proportion, and solved for its variable by cross-multiplying. In each case, we replace as follows:
(a) The percent is 40, the part is 200, and the whole is :
(b) The percent is 70, the part is 350, and the whole is :
Example Question #252 : Numbers And Operations
After a discount of 20%, a boom box costs $144.
Which is the greater quantity?
(a) The price of the boom box before the discount
(b) $172.80
(a) is greater
(a) and (b) are equal
(b) is greater
It is impossible to tell from the information given
(a) is greater
Paying for something at 20% discount is the same as paying for it at 80% of the price.
If the boom box costs $172.80 before a 20% discount, then afterward, it costs 80% of this, or
Therefore, the original price must have been greater than $172.80.
Example Question #253 : Numbers And Operations
Chet bought an MP3 player and got $14.50 back in change. The tax on the MP3 player was 5%.
Which is the greater quantity?
(a) The price of the MP3 player before tax
(b)
(a) is greater
It is impossible to tell from the information given
(a) and (b) are equal
(b) is greater
It is impossible to tell from the information given
No clue is given as to how much Chet paid for the device - neither the price paid for the player nor the amount of money Chet gave the clerk is given here.
Example Question #254 : Numbers And Operations
60% of 3,000 is equal to 40% of what number?
60% of 3,000 is equal to .
40% of an unknown number can be written as . Set these equal and solve for :
Example Question #255 : Numbers And Operations
Claude bought a new game for $32 at 20% off its original price. What was the original price of the game?
Since the game was 20% off, that means the game's value is currently 80% of the original price.
In order to figure out what the original price of the game was, you must set up a proportion:
The proportion is set up this way because the $32 Claude paid is equal to 80% of the price of the game, not 100%. The x stands for the unknown original price of the game. Next, cross multiply. The bottom number of each fraction should be multiplied by the top number.
The above will be your result. You then must solve for x. To do this, divide by 80 on each side of the equation.
The value of x is your answer.
Example Question #256 : Numbers And Operations
is % of what number?
Round to the nearest thousandth.
Remember that for percentages, the key to setting up the problem is intelligent translation. The word "is" becomes , "of" signals multiplication, "what" (and equivalent words) signal a variable ().
Therefore, we can translate:
is % of what number?
As...
To solve, divide both sides by :
Rounded, this is: