All GMAT Math Resources
Example Questions
Example Question #2 : Data Interpretation
A monster is holding a brown paper bag filled with cookies. Inside the bag there are two types of cookies, chocolate chip and oatmeal raisin. If the monster pulls one cookie out at random, what is the probability that he pulls out a chocolate chip cookie.
1. There are a total of 24 cookies in the bag.
2. There are 8 more chocolate chip cookies in the bag than oatmeal raisin cookies.
Statement (1) ALONE is sufficient, but statement (2) alone is not sufficient.
Statements (1) and (2) TOGETHER are NOT sufficient.
Statement (2) ALONE is sufficient, but statement (1) alone is not sufficient.
EACH statement ALONE is sufficient.
BOTH statements TOGETHER are sufficient, but NEITHER statement ALONE is sufficient.
BOTH statements TOGETHER are sufficient, but NEITHER statement ALONE is sufficient.
We need both statements to get the answer.
Statement 1 alone is not enough. Having 24 total cookies does not tell us the proportions of each type of cookie. We could have 1 chocolate chip cookie and 23 oatmeal raisin, or vice versa.
Statement 2 alone is not sufficient either. Knowing that there are 8 more chocolate chip cookies than oatmeal raisin without knowing the total amount in the bag does not help. It could be 1 oatmeal raisin cookie and 9 chocolate chip, or it could be 100 oatmeal raisin cookies and 108 chocolate chip cookies (although that is a pretty big bag!)
Only by having both statements together can we find the right proportion. If we let be the number of chocolate chip cookies, and be the number of oatmeal raisin, we can set two equations and find the right ratio. We know that
from statement 1, and
from statement 2.
Substituting into the first equation we get
Therefore, we get 8 oatmeal raisin cookies, and 16 chocolate chip cookies. The answer is
or 66.67% chance that the monster pulls out a chocolate chip cookie.
Example Question #2 : Probability
Choose the answer that best describes sufficient data to solve the problem.
A student body is polled regarding their favorite campus food. Of those who answered "Pizza" half were male and half were female. Pizza received 24 votes from men.
I. Pizza received the votes of 1 out of every 5 men and 3 out of every 10 women.
II. The student population was found to be 60% male and 40% female
How many students altogether were polled?
Statement II is sufficient to solve the problem, but Statement I alone is not.
Statement I is sufficient to solve the problem, but Statement II alone is not.
Neither statement is sufficient to solve the problem (additional information is needed).
Both statements together are sufficient to solve the problem.
Either statement alone is sufficient to solve the problem.
Statement I is sufficient to solve the problem, but Statement II alone is not.
Pizza received 24 votes from men. Since half of those who responded pizza were women, there must be 24 votes from women.
If 1 out of 5 men voted for pizza, this means we have men. If 3 out of 10 women voted for pizza, we have women for a total of 200 people polled.
If our population is instead given as 60% male and 40% female, we still have 24 men and 24 women that voted for pizza, but while we can determine the ratio of people who voted, we cannot get a precise number. For example, while 80 women and 120 men works, we could also have 160 women and 240 men as our total poll (with 1 out of 10 men and 3 out of 20 women voting pizza).
Thus the first condition is sufficient while the second is not.
Example Question #3 : Dsq: Calculating Probability
Find the probability.
Statement 1): Given that the last flips of a coin were heads, the next coin flip is heads.
Statement 2): Given that the last days were sunny skies, the next day is sunny.
EACH statement ALONE is sufficient.
Statement 2) ALONE is sufficient, but Statement 1) ALONE is not sufficient to answer the question.
BOTH statements taken TOGETHER are sufficient to answer the question, but neither statement ALONE is sufficient.
Statement 1) ALONE is sufficient, but Statement 2) ALONE is not sufficient to answer the question.
BOTH statements TOGETHER are NOT sufficient, and additional data is needed to answer the question.
Statement 1) ALONE is sufficient, but Statement 2) ALONE is not sufficient to answer the question.
This question deals with conditional probability.
Statement 1) consists of independent events. The past trials will not affect the future trials of the coin. The odds of flipping a coin and land on heads will be .
Statement 2) also consists of independent events. However, given that the previous 10 days were sunny does not necessarily indicate that the next day will guarantee that it will be a sunny day. The probability is unknown because the statement does not give any information about the percentage of a sunny sky on any particular day.
Example Question #4 : Dsq: Calculating Probability
Jenkins has a box of 36 guitar picks. Each pick is one of three colors: blue, black, or orange.
I) There are 14 more orange picks than blue picks.
II) There are 12 black picks.
What are the odds of randomly selecting a black pick, followed by a blue pick, followed by an orange pick?
Statement II is sufficient to answer the question, but Statement I is not sufficient to answer the question.
Statement I is sufficient to answer the question, but Statement II is not sufficient to answer the question.
Neither statement is sufficient to answer the question. More information is needed.
Either statement is sufficient to answer the question.
Both statements are needed to answer the question.
Both statements are needed to answer the question.
To find the probability of several events, we need to find the probability of each event separately. First, we need to know how many there are of each color pick.
Statement I relates the number of orange and blue picks.
Statement II tells us the number of black picks.
From Statement I:
From Statement II:
Using Statement I, Statement II, and the given info, we can substitute from Statement I into Statement II for and get the following:
We can then solve for :
Since we are told in Statement I that there are 14 more blue picks than orange picks, we can then find the number of orange picks:
So, to find the odds of multiple events, multiply the probability of each event together:
Example Question #1 : Dsq: Understanding Diagrams
Below is a menu of the drinks served at Moonbucks Coffee:
Today and today only, there is a special - buy two espressos and get any third drink free. There are no other specials.
Ralph and Janet are each ordering three beverages from this menu. Who, if either, will pay more?
Statement 1: Two of Ralph's drinks are espressos.
Statement 2: Two of Janet's drinks are cappucinos.
BOTH statements TOGETHER are insufficient to answer the question.
EITHER statement ALONE is sufficient to answer the question.
Statement 1 ALONE is sufficient to answer the question, but Statement 2 ALONE is NOT sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
Statement 2 ALONE is sufficient to answer the question, but Statement 1 ALONE is NOT sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
Each statement alone gives information about only one order, so at the very least, both statements will be necessary.
From Statement 1, it is known that Ralph will pay for his drinks, since he will only pay for the two espressos.
From Statement 2, it cannot be determined exactly what Janet will pay. However, she will pay for all three drinks, two of which are cappucinos; the least she will spend is the price of two cappucinos and an Americano, which is .
From both statements together, it is definite that Janet will pay more.
Example Question #2 : Dsq: Understanding Diagrams
Below is a menu of the drinks served at Moonbucks Coffee:
Patty and Mickey each order three beverages from the menu. Who, if either, will pay more (disregard tax)?
Statement 1: All three of Patty's drinks are Turkish coffees.
Statement 2: One of Mickey's drinks is an Americano.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
Statement 1 ALONE is sufficient to answer the question, but Statement 2 ALONE is NOT sufficient to answer the question.
Statement 2 ALONE is sufficient to answer the question, but Statement 1 ALONE is NOT sufficient to answer the question.
EITHER statement ALONE is sufficient to answer the question.
BOTH statements TOGETHER are insufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
From Statement 1 alone, you know that Patty spent . It is possible, however, that Mickey spent more (for three espressos, for example), just as much (on three Turkish coffees), or less (for three cappucinos, for example). Statement 2 alone gives you even more scant information, since it only tells you one beverage Mickey bought.
Suppose you know both statements. Then you know Patty spent . You do not know how much Mickey spent, but the most he could have spent was (for an Americano and two esperessos). Therefore, the two statements together are necessary and sufficient to answer the question.
Example Question #61 : Data Sufficiency Questions
Below are the results of the initial election for senior class president.
No candidate won a majority, so Crane and Trask faced each other in a runoff. Every student in the senior class voted in both the initial election and the runoff. Every student who voted for Crane in the initial election voted for Crane in the runoff, and every student who voted for Trask in the initial election voted for Trask in the runoff.
Who got the most votes in the runoff, Crane or Trask?
Statement 1: All of the students who voted for Jones in the initial election voted for Crane.
Statement 2: Two-thirds of the students who voted for Wells in the initial election voted for Trask.
Statement 1 ALONE is sufficient to answer the question, but Statement 2 ALONE is NOT sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
Statement 2 ALONE is sufficient to answer the question, but Statement 1 ALONE is NOT sufficient to answer the question.
BOTH statements TOGETHER are insufficient to answer the question.
EITHER statement ALONE is sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
students voted, so 236 votes were necessary to win a simple majority.
From Statement 1 alone it can be determined that Crane won at least votes (his own initial votes plus all of the votes that previously went to Jones), and Trask won at least 98 (his own initial votes).
From Statement 2 alone, it can be determined that Crane won at least (his own initial votes plus one-third of the votes that previously went to Wells), and Trask won at least votes (his own initial votes plus two-thirds of the votes that previously went to Wells).
Neither statement alone will prove a majority vote. From Statement 1 and 2 together, however, it is known that Crane won at least his own initial votes, all of Jones' votes, and one-third of Wells' votes - a minimum of
votes. Therefore Crane is the winner, and both statements are needed to prove this.
Example Question #2 : Dsq: Understanding Diagrams
The table below gives the population of the city of Renfrow for each of six census years.
Did Renfrow have a larger population in 1945 or 1955?
Statement 1: The population rose every year from 1940 to 1950.
Statement 2: The population rose every year from 1950 to 1960.
EITHER statement ALONE is sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
BOTH statements TOGETHER are insufficient to answer the question.
Statement 1 ALONE is sufficient to answer the question, but Statement 2 ALONE is NOT sufficient to answer the question.
Statement 2 ALONE is sufficient to answer the question, but Statement 1 ALONE is NOT sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
Statement 1 alone tells us that the population of Renfrow in 1945 was between 13,251 and 15,049, but says nothing about the population in 1955.
Similarly, Statement 2 alone tells us that the population in 1955 was between 15,049 and 19,415, but says nothing about the population in 1945.
The two statements together, however, tell us that the population rose every year from 1940 to 1960, so the population in 1955 had to have been greater than the population in 1945.
Example Question #62 : Data Sufficiency Questions
The table below gives the population of the city of Renfrow for each of six census years.
Did Renfrow have a greater population in 1965 or 1975?
Statement 1: The population of Renfrow decreased every year from 1960 to 1970.
Statement 2: The population of Renfrow increased every year from 1970 to 1980.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
Statement 2 ALONE is sufficient to answer the question, but Statement 1 ALONE is NOT sufficient to answer the question.
Statement 1 ALONE is sufficient to answer the question, but Statement 2 ALONE is NOT sufficient to answer the question.
EITHER statement ALONE is sufficient to answer the question.
BOTH statements TOGETHER are insufficient to answer the question.
BOTH statements TOGETHER are insufficient to answer the question.
From the two statements together, it can only be surmised that the population in both 1965 and 1975 exceeded the 1970 population. No conclusions can be drawn about the size of the 1965 population relative to the size of the 1975 population.
Example Question #4 : Dsq: Understanding Diagrams
The above is the menu at Monorail Sandwich Shop.
Julie and Janice are each ordering four sandwiches from the above menu. Julie works at Monorail and is entitled to a 25% employee discount; Janice does not work at Monorail.
Who will pay more for her sandwiches, ignoring tax?
Statement 1: Janice is ordering four veggie sandwiches.
Statement 2: Julie is ordering four beef sandwiches.
BOTH statements TOGETHER are insufficient to answer the question.
Statement 1 ALONE is sufficient to answer the question, but Statement 2 ALONE is NOT sufficient to answer the question.
Statement 2 ALONE is sufficient to answer the question, but Statement 1 ALONE is NOT sufficient to answer the question.
EITHER statement ALONE is sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
BOTH statements TOGETHER are sufficient to answer the question, but NEITHER statement ALONE is sufficient to answer the question.
DO NOT calculate how much Janice and Julie will pay! It's extra work that will slow you down on test day. We don't actually need to determine which of the two women will pay more - we only need to decide if it is possible to figure out who will pay more. Obviously neither statement alone tells us enough. Together, however, the two statements tell us exactly what Janice and Julie ordered. Therefore, using both statements, we have enough information to answer the question.