smiles
The head of a penny is obviously the queens head, and the tail is that thing on the other side of the penny.
The side that has the Presidents face on it is the head making the other side the tail.
there can be only three combo's ------ head n tail,,,,,,,, tail n tail,,,,,,,,,,,,,, head n head
6
(1,head,head),(1,head,tail),(1,tail,head),(1,tail,tail) (2,head,head), (2,head,tail),(2,tail,head),(2,tail,tail), (3,head,head), (3,head,tail),(3,tail,head),(3,tail,tail), (4,head,head), (4,head,tail),(4,tail,head),(4,tail,tail), (5,head,head), (5,head,tail),(5,tail,head),(5,tail,tail), (6,head,head), (6,head,tail),(6,tail,head),(6,tail,tail),
smiles
A coin. It has a head on one side and a tail on the other.
Well, isn't that just a happy little riddle you've got there! Sometimes life can feel a bit topsy-turvy, but remember, you're right in the middle of it all, finding balance and harmony. Embrace the uniqueness of your perspective and enjoy the journey of unraveling this delightful mystery.
The head-to-tail rule is a method used in vector addition where vectors are added tip-to-tail. This involves placing the tail of one vector to the head of the other vector in order to determine the resultant vector. The resultant vector is then the vector that connects the tail of the first vector to the head of the last vector in the series.
Church. CH UR CH
6" = head 6"+n/a = Tail Other half of body is the remainder of the tail minus the head. I'd say 24 inches
The head-to-tail rule is a method used to find the resultant of two vectors by placing the tail of one vector against the head of the other. For example, if a 5N force is applied east and a 3N force is applied north, using the head-to-tail rule, the resultant force can be found by connecting the tail of the first vector to the head of the second vector to form a triangle.
The head of a penny is obviously the queens head, and the tail is that thing on the other side of the penny.
the tail
A coin.
A head and a tail. The head is hydrophilic (polar) and the tail is hydrophobic (nonpolar) .