Find a famous person
[3555] Find a famous person - Find the first and the last name of a famous person. Text may go in all 8 directions. Length of words in solution: 4,5. - #brainteasers #wordpuzzles - Correct Answers: 16 - The first user who solved this task is On On Lunarbasil
10
26
6.98
BRAIN TEASERS
enter your answer and press button OK

Find a famous person

Find the first and the last name of a famous person. Text may go in all 8 directions. Length of words in solution: 4,5.
Correct answers: 16
The first user who solved this task is On On Lunarbasil.
#brainteasers #wordpuzzles
Register with your Google or Facebook Account and start collecting points.
Check your ranking on list.

I Get So Drunk That I Imagine Things

The drunk was floundering down the alley carrying a box with holes on the side. He bumped into a friend who asked, "What do you have in there, pal?"
"A mongoose."
"What for?"
"Well, you know how drunk I can get. When I get drunk I see snakes, and I'm scared to death of snakes. That's why I got this mongoose, for protection."
"But," the friend said, "you idiot! Those are imaginary snakes."
"That's okay," said the drunk, showing his friend the interior of the box, "So is the mongoose."
Jokes of the day - Daily updated jokes. New jokes every day.
Follow Brain Teasers on social networks

Brain Teasers

puzzles, riddles, mathematical problems, mastermind, cinemania...

Max Rubner

Died 27 Apr 1932 at age 77 (born 2 Jun 1854).Physiologist who showed the available energy content of food was the same whether the material was consumed organically or merely burned (1894). He determined that no single type of food produced energy, but that the body variously made ready use of carbohydrates, fats and proteins. In 1883, he used geometry to compare metabolic rates of animals of different sizes. Thus, if an animal is N times taller than another, it has surface area N2 greater and mass N3 greater. Thus total metabolic rate (dependent on heat loss over surface area, N2), would be proportional to M2/3. Specific metabolic rate (the energy burnt M2/3, per unit of mass, M) would be proportional to M1/3. It took 50 years before this simple explanation was improved.
This site uses cookies to store information on your computer. Some are essential to help the site properly. Others give us insight into how the site is used and help us to optimize the user experience. See our privacy policy.