Asked by basketball&batman

Each of two urns contains green balls and red balls. urn 1 contains 10 green balls and 14 red balls. urn 2 contains 4 green balls and 11 red balls. if a ball is drawn from each urn what is p(red and red)?

BTW- i really don't know what an urn is, i guess a basket or some small bag, but its not important anyway.here are the answer choices:

a.1/9
b.25/39
c.79/60
d.77/180
i think its b. PLz help when you get the chance and thank you for your time. :)
Answered by Reiny
no, the events are independent, so you multiply the probabities of each event
urn1, prob(red) = 14/24
urn2, prob(red) = 11/15

prob(red and red) = (14/25)(11/15) = 77/180

btw, an urn is an ancient clay pot or jug.
e.g. read: Ode on a Grecian Urn by John Keats
Answered by basketball&batman
oh cool thanks for the help and xtra info!
Answered by Fuyuko
Urns are what people used to put other people's ashes in. (After they burnt the person.):D I play Skyrim. xD
Answered by Anon
^ O_O WOW
Answered by Anonymous
Urns are what people use to put other people's ashes in. My Grandpa was a heavy smoker and now is a silver urn to the left of my fireplace (The irony):D I don't play Skyrim. xP
Answered by Greedo
77/180. I dub this…correct!
Answered by secret
I don't even have that answer choice, is this correct???
Answered by free bobby shmurda
lol chill don't type up an essay because someone made u mad oh my
Answered by jEsUs cHrIsT iTs jAsOn bOuRnE
well that escalated quickly
Answered by Help Humanity
Whether you do the deed of killing or have someone do it it's the same thing. As long as we lean from the bad part of history and move on that is all that matters. We all need to make a better and safer place for our friends and family.
Answered by Benito Mussolini
I was just trying to get answers but other dictators were commenting so...
Answered by Dog
What the plop
Answered by connexus kiddo
1. theoretical; the result is based on the number of possible outcomes
2.theoretical; the result is based on the number of possible outcomes
3.47/120;1/6
4.1/2
5.7:4
6:15/88
7.48/1369
8.77/88
9.1/2
10.1/12
11.2/91
12.20
13.1/32
14.24
15.30
16.126
17.120
18.21


I couldn't find correct answers alltogether, so I searched them one by one. I got a 66%. I go to Connexus Academy and after any assignment they show the correct answer. This what i got above. I think this should be correct for a while before they change the answers again. Btw this is the Probability Unit Test Part 1. Good Luck!!!! :)
Answered by Anonymous
is he right i go to texas
Answered by Minecraft player
So close my questions are a little bit different but SOOO close but thanks for the help
Answered by bot please help
Each of two urns contains green balls and red balls. Urn I contains 10 green balls and 14 red balls. Urn II contains 4 green balls and 11 red balls. If a ball is drawn from each urn, what is P(red and red)?
A. one ninth
B. 25 over 39
C. 79 over 60
D. 77 over 180
Answered by Bot
The probability of drawing a red ball from urn I is 14/24. The probability of drawing a red ball from urn II is 11/15. Since the events are independent, the probability of both events occurring is the product of their individual probabilities. Therefore, P(red and red) = (14/24) x (11/15) = 77/180. The correct answer is D.
Answered by Divergent
A drawer contains 2 red socks, 3 white socks, and 3 blue socks. Without looking, you draw out a sock, return it, and draw out a second sock. What is the probability that the first sock is blue and the second sock is red?
Answered by Bot
The probability of drawing a blue sock on the first draw is 3/8. After replacing the sock, there are still 2 red socks in the drawer out of a total of 8 socks. Therefore, the probability of drawing a red sock on the second draw is 2/8 or 1/4. Since these events are independent, the probability of both events occurring is the product of their individual probabilities.

Therefore, P(blue and red) = (3/8) x (1/4)

= 3/32

= 0.09375 or about 9.4%

The probability that the first sock is blue and the second sock is red is approximately 9.4%.
Answered by Divergent
9.4 as a fraction
Answered by Bot
9.4 expressed as a fraction is 94/10 or 47/5 in simplest form.
Answered by Divergent
From a barrel of colored marbles, you randomly select 3 blue, 2 yellow, 7 red, 8 green, and 2 purple marbles. Find the experimental probability of randomly selecting either a green or a purple marble
Answered by Bot
The number of green and purple marbles in the barrel is 8 + 2 = 10.

The total number of marbles in the barrel is 3 + 2 + 7 + 8 + 2 = 22.

The experimental probability of selecting a green or a purple marble can be found by dividing the number of green and purple marbles by the total number of marbles:

Probability = Number of desired outcomes / Number of possible outcomes

Probability of selecting a green or a purple marble = 10/22 = 5/11

Therefore, the experimental probability of randomly selecting either a green or a purple marble is 5/11.
Answered by Divergent
A number cube is rolled 360 times and the results are recorded as follows: 54 ones, 60 twos, 55 threes, 71 fours, 35 fives, 74 sixes. What is the experimental probability of rolling a two or a three?
Answered by Bot
The number of times a two or a three is rolled is the sum of the number of times a two is rolled and the number of times a three is rolled, which is 60 + 55 = 115 times.

The total number of rolls is 360.

The experimental probability of rolling a two or a three can be found by dividing the number of times a two or a three is rolled by the total number of rolls:

Probability = Number of desired outcomes / Number of possible outcomes

Probability of rolling a two or a three = 115/360

Therefore, the experimental probability of rolling a two or a three is 23/72.
Answered by Divergent
23/72 as a decimal
Answered by Bot
To convert 23/72 to a decimal, divide the numerator by the denominator:

23 Ă· 72 = 0.3194 (rounded to four decimal places)

Therefore, 23/72 as a decimal is approximately 0.3194.
Answered by Divergent
A standard number cube with the numbers 1 through 6 is rolled. Find the probability of rolling a number less then 3. Find the probability of not rolling a number less then 3
Answered by Bot
There are two numbers less than 3 on a standard number cube: 1 and 2.

The probability of rolling a number less than 3 is the sum of the probabilities of rolling a 1 and rolling a 2:

P(rolling a number less than 3) = P(rolling a 1) + P(rolling a 2) = 1/6 + 1/6 = 2/6 = 1/3.

Therefore, the probability of rolling a number less than 3 is 1/3.

The probability of not rolling a number less than 3 is the probability of rolling a number greater than or equal to 3:

P(not rolling a number less than 3) = P(rolling a 3) + P(rolling a 4) + P(rolling a 5) + P(rolling a 6) = 1/6 + 1/6 + 1/6 + 1/6 = 4/6 = 2/3.

Therefore, the probability of not rolling a number less than 3 is 2/3.
Answered by Divergent
A bag contains 6 red marbles, 3 white marbles, and 7 blue marbles. You pick a marble without looking. Find the probability of drawing a white marble
Answered by Bot
There are a total of 6 + 3 + 7 = 16 marbles in the bag.

The probability of drawing a white marble can be found by dividing the number of white marbles by the total number of marbles:

Probability = Number of desired outcomes / Number of possible outcomes

Probability of drawing a white marble = 3/16

Therefore, the probability of drawing a white marble from the bag is 3/16.
Answered by Divergent
A standard number cube is rolled 180 times. Predict how many times a 3 or a 5
Answered by Bot
There are two numbers on a standard cube that are either 3 or 5, so the probability of rolling a 3 or a 5 on any given roll is:

P(rolling a 3 or a 5) = P(rolling a 3) + P(rolling a 5) = 1/6 + 1/6 = 1/3

To predict how many times a 3 or a 5 is rolled in 180 rolls, we can multiply the number of rolls by the probability of rolling a 3 or a 5:

Number of 3's or 5's rolled = (Number of rolls) x P(rolling a 3 or a 5)

Number of 3's or 5's rolled = 180 x (1/3)

Number of 3's or 5's rolled = 60

Therefore, we can predict that a 3 or a 5 will be rolled approximately 60 times in 180 rolls.