The Climbing Trip Riddle
A couple went on for a climbing trip. But only the husband returned from the vacation and said that his wife slipped off while climbing and died. On investigating, the local sheriff arrested him saying, 'Your travel agent called. You murdered your wife.'
The man did not inform anyone about the trip. Then how did the agent was so sure that it is a murder?
The man did not inform anyone about the trip. Then how did the agent was so sure that it is a murder?
Hint:
The man bought only one way ticket for his wife whereas he bought two way ticket for himself. It means that he was sure that he will be returning alone. Did you answer this riddle correctly?
YES NO
YES NO
Favorite Month Of A Key
Hint:
Drinking Soda Riddle
In a restaurant drinks are served as per the name of the person.
Elizabeth, George, and Steve are drinking coffee.
Becky, Melissa, and Eva are drinking soda.
Using logic, is Helen drinking coffee or soda?
Elizabeth, George, and Steve are drinking coffee.
Becky, Melissa, and Eva are drinking soda.
Using logic, is Helen drinking coffee or soda?
Hint:
Helen is drinking coffee. Logic : People drinking coffee have two Es in their name Did you answer this riddle correctly?
YES NO
YES NO
A Suitor To Portia Riddle
The casket scene in "The Merchant of Venice" contains several riddles. Which of these nobles was NOT a suitor to Portia? This odd-man-out noble might easily be confused with the contender who chose 'Who chooseth me shall gain what many men desire.'
Hint:
The Least Favorite Month For A Tree
Hint:
Month Of Letter D
Hint:
Going To High Places
My invention makes it easier for people to get to high places without climbing stairs. What did I invent?
Hint:
On Everyones Face Riddle
We are a pair, We can dart here and there, Though we always stay in one place. We can smile or shed tears, Show our pleasure or fears, And you'll find us on everyone's face.
What are we?
What are we?
Hint:
The Old Gray Surgeon Riddle
A man and his son had a terrible car accident and were rushed to the hospital. The man died on the way, but the son was still barely alive. When they arrived, an old gray surgeon was called in to operate. Upon seeing the young boy, the surgeon said, I cant operate this is my son.
How is this possible?
How is this possible?
Hint:
A man and his son had a terrible car accident and were rushed to the hospital. The man died on the way, but the son was still barely alive. When they arrived, an old gray surgeon was called in to operate. Upon seeing the young boy, the surgeon said, I cant operate this is my son.
How is this possible? Did you answer this riddle correctly?
YES NO
How is this possible? Did you answer this riddle correctly?
YES NO
Down The Volcano Riddle
A man and a woman just got married and they are flying to Hawaii for their honeymoon. As the couple were looking down into one of the largest volcanoes, the wife falls in and dies. The husband flies back to his home very sad.
The next day, he gets a phone call. The person on the phone said "I know who killed your wife."
Who killed the wife?
Who called the husband?
How did they know?
The next day, he gets a phone call. The person on the phone said "I know who killed your wife."
Who killed the wife?
Who called the husband?
How did they know?
Hint:
The husband killed his wife.
The person who called was a flight attendant, because after reading about the death of his wife in the Newspaper she realized he bought one round trip ticket for himself and a one way ticket for his wife. Did you answer this riddle correctly?
YES NO
The person who called was a flight attendant, because after reading about the death of his wife in the Newspaper she realized he bought one round trip ticket for himself and a one way ticket for his wife. Did you answer this riddle correctly?
YES NO
Logs That Are Aflame
This can be found inside some homes
But can you work out its name?
Surrounded by a mantelpiece
It has logs that are aflame
Its...
But can you work out its name?
Surrounded by a mantelpiece
It has logs that are aflame
Its...
Hint:
100 Blank Cards Riddle
Someone offers you the following deal:
There is a deck of 100 initially blank cards. The dealer is allowed to write ANY positive integer, one per card, leaving none blank. You are then asked to turn over as many cards as you wish. If the last card you turn over is the highest in the deck, you win; otherwise, you lose.
Winning grants you $50, and losing costs you only the $10 you paid to play.
Would you accept this challenge?
There is a deck of 100 initially blank cards. The dealer is allowed to write ANY positive integer, one per card, leaving none blank. You are then asked to turn over as many cards as you wish. If the last card you turn over is the highest in the deck, you win; otherwise, you lose.
Winning grants you $50, and losing costs you only the $10 you paid to play.
Would you accept this challenge?
Hint: Perhaps thinking in terms of one deck is the wrong approach.
Yes!
A sample strategy:
Divide the deck in half and turn over all lower 50 cards, setting aside the highest number you find. Then turn over the other 50 cards, one by one, until you reach a number that is higher than the card you set aside: this is your chosen "high card."
Now, there is a 50% chance that the highest card is contained in the top 50 cards (it is or it isn't), and a 50% chance that the second-highest card is contained in the lower 50. Combining the probabilities, you have a 25% chance of constructing the above situation (in which you win every time).
This means that you'll lose three out of four games, but for every four games played, you pay $40 while you win one game and $50. Your net profit every four games is $10.
Obviously, you have to have at least $40 to start in order to apply this strategy effectively. Did you answer this riddle correctly?
YES NO
A sample strategy:
Divide the deck in half and turn over all lower 50 cards, setting aside the highest number you find. Then turn over the other 50 cards, one by one, until you reach a number that is higher than the card you set aside: this is your chosen "high card."
Now, there is a 50% chance that the highest card is contained in the top 50 cards (it is or it isn't), and a 50% chance that the second-highest card is contained in the lower 50. Combining the probabilities, you have a 25% chance of constructing the above situation (in which you win every time).
This means that you'll lose three out of four games, but for every four games played, you pay $40 while you win one game and $50. Your net profit every four games is $10.
Obviously, you have to have at least $40 to start in order to apply this strategy effectively. Did you answer this riddle correctly?
YES NO
28 Days Riddle
Hint:
Soldiers Hate Most Riddle
Hint:
Five Rows Of Four Christmas Trees Riddle
"I planted five rows of four Christmas trees each." The man boasted to his boss. The boss looked at him and said, are you saying you planted 20 Christmas trees in one day? No, the man said, I only planted 10 trees. How did he do it?
Hint:
Just imagine a 5 pointed star, and then plant one tree at each point, and one tree where the sides intersect.
There are actually several distinct solutions. All of them can be constructed as follows:
Draw a nice long straight line.
Draw a second straight line that intersects the first.
Draw three more straight lines making sure each line intersects all the lines youve already drawn and avoiding any of the previous points of intersection. That is, no three lines should intersect at the same point.
With the first four lines, theres only one topologically distinct configuration, but by varying the position of the fifth line, several different distinct configurations can be created. Did you answer this riddle correctly?
YES NO
There are actually several distinct solutions. All of them can be constructed as follows:
Draw a nice long straight line.
Draw a second straight line that intersects the first.
Draw three more straight lines making sure each line intersects all the lines youve already drawn and avoiding any of the previous points of intersection. That is, no three lines should intersect at the same point.
With the first four lines, theres only one topologically distinct configuration, but by varying the position of the fifth line, several different distinct configurations can be created. Did you answer this riddle correctly?
YES NO
Add Your Riddle Here
Have some tricky riddles of your own? Leave them below for our users to try and solve.