Every Witch Needs One Riddle
Every witch needs one of these
If she is to cast a spell
Its what she makes her brew in
That gives off an awful smell
If she is to cast a spell
Its what she makes her brew in
That gives off an awful smell
Hint:
Tells It Not Riddle
Whoever makes it, tells it not.
Whoever takes it, knows it not.
Whoever knows it, wants it not.
What is it?
Whoever takes it, knows it not.
Whoever knows it, wants it not.
What is it?
Hint:
Itchy Paper Riddle
Hint:
The 60 Second Sentence
Gaze at this sentence for just about sixty seconds and then explain what makes it quite different from the average sentence? Quick!
What is it?
What is it?
Hint:
Every Witch Needs One Riddle
Every witch needs one of these
If she is to cast a magical spell
Its what she makes her brew in
That gives off an awful smell Body parts remaining: 6
If she is to cast a magical spell
Its what she makes her brew in
That gives off an awful smell Body parts remaining: 6
Hint:
Weightless On A Scale
Im measured on a special type of scale but I dont weigh anything
I cant be seen but Im not the Invisible Man
I can whistle but I have no mouth
I can knock down trees but Im not a lumberjack
I help you fly a kite but Im not a piece of string
I blow but Im not someone playing the trumpet.
What am I?
I cant be seen but Im not the Invisible Man
I can whistle but I have no mouth
I can knock down trees but Im not a lumberjack
I help you fly a kite but Im not a piece of string
I blow but Im not someone playing the trumpet.
What am I?
Hint:
When Life Gives You These
This riddle is about a fruit
It might be one that makes you think
Its said that when life gives you these
You should make something you can drink
It might be one that makes you think
Its said that when life gives you these
You should make something you can drink
Hint:
Halting Potter's Life Riddle
Looks can be deceiving,
And they certainly were with me.
Betrayal and lying,
People dying,
Makes no difference to me.
I'd do anything to help him get that wretched boy.
That would make my master's empty heart fill up with bubbling joy.
Much in common I have with him,
We killed the people we "loved" or not.
I disguised myself for this man,
I'm doing everything I can.
For years and years I endured it all
Just to see that Potter's life come to a sudden halt.
Who Am I?
And they certainly were with me.
Betrayal and lying,
People dying,
Makes no difference to me.
I'd do anything to help him get that wretched boy.
That would make my master's empty heart fill up with bubbling joy.
Much in common I have with him,
We killed the people we "loved" or not.
I disguised myself for this man,
I'm doing everything I can.
For years and years I endured it all
Just to see that Potter's life come to a sudden halt.
Who Am I?
Hint:
The Joyful Vacation Riddle
Hint:
Lawn Mower Riddle
Hint:
An Unpopular Invention
My invention is not very popular with people who visit the doctor. It is pointy and sometimes makes people cry. Who am I and what did I invent?
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:
Three Hunters Riddle
Three hunters just finished hunting for the night and went down to a motel. They couldn't afford three separate rooms so they decided to get one room, and split the price. The room costed $30. (It was a run-down motel, but that's not the point.) So, they each paid their $10 and went to their room. The employee running the check-in/ check-out desk realized that she overcharged them, so she sent a bell-boy to return the extra cash. On the way the bell-boy wondered how to equally split the money... he wasnt the smart type so he just slid $2 into his pocket as a tip. That way the hunters would get $1 each. Well... they got their $1 each right? So in the end they all payed $9 each, which makes $27. Plus the $2 in the bell-boy's pocket makes $29...
What happened to the last dollar?
What happened to the last dollar?
Hint:
They didn't really pay $9 each, remember? The bell-boy was too lazy to add up the actual sum that they would pay. They reeeally payed about a $8.66 each. So $8.66 times the three of them equals about $25, plus the $5 in the bell-boys equals $30 Did you answer this riddle correctly?
YES NO
YES NO
The Blind Mammals Riddle
The fact this mammal has webbed wings
Makes it a one of a kind
And contrary to the saying
None of these creatures are blind
What are these mammals?
Makes it a one of a kind
And contrary to the saying
None of these creatures are blind
What are these mammals?
Hint:
The Secret Santa Exchange
A group of ten friends decide to exchange gifts as secret Santas. Each person writes his or her name on a piece of paper and puts it in a hat. Then each person randomly draws a name from the hat to determine who has him as his or her secret Santa. The secret Santa then makes a gift for the person whose name he drew.
When it's time to exchange presents, each person walks over to the person he made the gift for and holds his or her left hand in his right hand.
What is the probability that the 10 friends holding hands form a single continuous circle?
When it's time to exchange presents, each person walks over to the person he made the gift for and holds his or her left hand in his right hand.
What is the probability that the 10 friends holding hands form a single continuous circle?
Hint: It's not as difficult as it seems.
It's the number of ways the friends can form a circle divided by the number of ways the names can be drawn out of the hat.
1/10
For a group of n friends, there are n! (n factorial) ways to draw the names out of the hat. Since a circle does not have a beginning and end, choose one person as the beginning and end of the circle. There are now (n-1)! ways to distribute the remaining people around the circle. Thus the probability of forming a single circle is
(n-1)! / n!
Since n! = (n-1)! * n (for n > 1), this can be rewritten as
(n-1)! / (n*(n-1)!)
Factoring out the (n-1)! from the numerator and denominator leaves
1/n
as the probability. Did you answer this riddle correctly?
YES NO
For a group of n friends, there are n! (n factorial) ways to draw the names out of the hat. Since a circle does not have a beginning and end, choose one person as the beginning and end of the circle. There are now (n-1)! ways to distribute the remaining people around the circle. Thus the probability of forming a single circle is
(n-1)! / n!
Since n! = (n-1)! * n (for n > 1), this can be rewritten as
(n-1)! / (n*(n-1)!)
Factoring out the (n-1)! from the numerator and denominator leaves
1/n
as the probability. Did you answer this riddle correctly?
YES NO
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