One of the five digits on each hand is a finger. Humans typically have four fingers and one thumb on each hand, making a total of ten digits. The digits are used for various functions, including grasping, manipulating objects, and tactile sensing. Each finger has its own unique range of motion and dexterity, contributing to the hand's overall functionality.
No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place.
You gave me 5 digits. -- The first digit can be any one of the 5 digits. For each one, -- The second digit can be any one of the remaining 4 digits. For each one, -- The third digit can be any one of the remaining 3 digits. For each one, -- The fourth digit can be any one of the remaining 2 digits. For each one, -- The fifth digit can only be the remaining 1 digit. So there are (5 x 4 x 3 x 2 x 1) = 120 possible different arrangements.
The first can be any one of 10 digits. For each of those . . .The second can be any one of the nine digits not the same as the first. For each of those . . .The third can be any one of the nine digits not the same as the second. For each of those . . .The fourth can be any one of the nine digits not the same as the third. For each of those . . .The fifth can be any one of the nine digits not the same as the fourth. For each of those . . .The sixth can be any one of the nine digits not the same as the fifth. For each of those . . .The seventh can be any one of the nine digits not the same as the sixth. For each of those . . .The eighth can be any one of the nine digits not the same as the seventh. For each of those . . .The ninth can be any one of the nine digits not the same as the eighth.The total number of possibilities is: (10 x 9 x 9 x 9 x 9 x 9 x 9 x 9 x 9) = 430,467,210 .If matching adjacent digits were allowed there would be 1,000,000,000 possibilities.So the restriction has eliminated 56.95% of them.
Well, honey, you take the number 0.175 and there you have it - one hundred and seventy-five thousandths in digits. Easy peasy lemon squeezy!
1590000
There are five metacarpals in each hand, one for each digit.
No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place. No. It has four digits and each one of these is in a different place.
You gave me 5 digits. -- The first digit can be any one of the 5 digits. For each one, -- The second digit can be any one of the remaining 4 digits. For each one, -- The third digit can be any one of the remaining 3 digits. For each one, -- The fourth digit can be any one of the remaining 2 digits. For each one, -- The fifth digit can only be the remaining 1 digit. So there are (5 x 4 x 3 x 2 x 1) = 120 possible different arrangements.
105.05
To be pedantic: on one human hand there are four fingers and one thumb. But commonly it is five fingers.
A typical cat has a total of 18 toes, with five digits on each front paw and four digits on each back paw. This means that each front paw has one extra toe compared to the back paws. Some cats may have genetic variations, such as polydactylism, which can result in additional toes.
can you saw me how can you write one and a half million in digits
Depends if you are born with any birth defects or if later in life you lose a finger so there can be a range but most humans have 4 fingers if you don't count the thumb, which I really don't it doesn't look like a finger now does it? ~Frootloopers
1,101,005
9
Normally, people have five digits on one hand. When you hold up your hand and extend your thumb away from your fingers, your thumb and index finger create the shape of a V.
5 is odd in digits and five has 4 alphabets which is even