I live in lakes and rivers.
I eat fish and birds.
I have four legs and a long tail.
I have lots of pretty teeth.
I am a...
Answer:- Crocodile.
I taste sweet and juicy.
I smell fruity.
I feel rough and wet.
I look like a bumpy ball.
What am I?
Answer:- An orange.
I travel all over the world. But I could not move, just stay in a same single spot. What Am I?
Answer:- A stamp.
I weigh almost nothing. I am lighter than air. But even the strongest man in the world cannot lift me. What Am I?
Answer:- Bubble.
I'm in you,
But not in him,
I go up,
But not down,
I'm in the colosseum,
But not a tower,
I'm in a puzzle,
But not a riddle.
Answer:- The letter U.
If
1 = 5 ,
2 = 25 ,
3 = 325 ,
4 = 4325
Then 5 = ?
Answer:- Second option. You'll end up with $5,368,709.12. That's the beauty of compound interest.
If a boy is 12 and his brother is 13, how is the 12 year old older than his brother?
Answer:- His brother is 13 months.
If I drink, I die. If i eat, I am fine. What am I?
Answer:- Fire.
If there're 3 apples and you take away 2, how many do you have?
Answer:- If you take 2 apples, than you have of course 2.
If,
Fernando + Alonso + McLaren = 6
Fernando x Alonso = 2
Alonso x McLaren = 6
Then,
McLaren x Fernando = ?
Answer:- Take the first 13 cards off the top of the deck and flip them over. This is the first pile. The second pile is just the remaining 39 cards as they started.
This works because if there are N face-up cards in within the first 13 cards, then there will be (13 - N) face up cards in the remaining 39 cards. When you flip those first 13 cards, N of which are face-up, there will now be N cards face-down, and therefore (13 - N) cards face-up, which, as stated, is the same number of face-up cards in the second pile.
Imagine you're in a room that is filling with water. There are no windows or doors. How do you get out?
Answer:- Stop imagining!
In a supermarket, the first 25 customers of the day purchased an average of two items each.
After a further 15 customers, the average number of items purchased by each customer rose to eight.
What was the average number of items purchased by the last 15 customers only?
Answer:- Assume the radius of the lake is R feet. So the circumference of the lake is (2*pi*R). If the swan swims R/4 feet, (or, put another way, 0.25R feet) straight away from the center of the lake, and then begins swimming in a circle around the center, then it will be able to swim around this circle in the exact same amount of time as the monster will be able to run around the lake's shore (since this inner circle's circumference is 2*pi*(R/4), which is exactly 4 times shorter than the shore's circumference).
From this point, the swan can move a millimeter inward toward the lake's center, and begin swimming around the center in a circle from this distance. It is now going around a very slightly smaller circle than it was a moment ago, and thus will be able to swim around this circle FASTER than the monster can run around the shore.
The swan can keep swimming around this way, pulling further away each second, until finally it is on the opposite side of its inner circle from where the monster is on the shore. At this point, the swan aims directly toward the closest shore and begins swimming that way. At this point, the swan has to swim [0.75R feet + 1 millimeter] to get to shore. Meanwhile, the monster will have to run R*pi feet (half the circumference of the lake) to get to where the swan is headed.
The monster runs four times as fast as the swan, but you can see that it has more than four times as far to run:
[0.75R feet + 1 millimeter] * 4 < R*pi
[This math could actually be incorrect if R were very very small, but in that case we could just say the swan swam inward even less than a millimeter, and make the math work out correctly.]
Because the swan has less than a fourth of the distance to travel as the monster, it will reach the shore before the monster reaches where it is and successfully escape.