There are infinitely many number between the two given numbers.
No.The mixed number 21/2, for example, is greater than the whole number 2, but smaller than the whole number 3.In fact, given any mixed number (which does have a fractional part), it is always possible to find a pair of consecutive whole numbers such that the mixed number is between them.
1, 2, 3 and 6
3 (2 bonding sites & 1 lone pair)
2 and 7 is the only such pair.
A twin prime is a prime number that is either 2 less or 2 more than another prime number-for example, the twin prime pair (41, 43).
The repeated digit for each pair of numbers increases by 1 with another number in between each pair.So we have 33?44?55?.The number in between each pair decreases by 2 at each stage335443551The next two numbers are therefore 5 and 1.
decimals from 7.0 to 8.4 with interval of .2 between each pair of decimals
2 and -6
Between which 2 hundreds is each number? 713?
It is the arithmetic mean of the two numbers. The halfway point between x and y is (x + y)/2
Geometric mean of 2 and 8 = sqrt(2*8) = sqrt(16) = 4
replace the 'is to' with 'times ten is' and 'as' with 'and'.the sentence suggests that there is a similarity between each number pair, 2 & 20 and 20 & 200. This similarity is that a single equation can be used to turn the first number into the second number. that equation is, the first number multiplied by 10 is equal to the second number.
113 ------ I contend the correct answer is not 113 but: 82 Looking at the first digit of each number from one to the next... 1 3 2 5 4 this pattern emerges: +2 -1 +3 -1 next number in series first digit will accomodate +4, first digit will be 8 Looking at each pair of each numbers digits... 1 2 | 3 1 | 2 5 | 5 1 | 4 9 this pattern emerges in the difference between the two digits of each number: -1 +2 -3 +4 -5 next number pair in series will accomodate +6 = 82
2+3,11+3,3+17
Can't make the dots, but each line is one pair of dots (electrons that is).Covalent => between atoms ( ' = ', 2 pair, double bonded)Lone pairs => before or after an 'outer' atom ( '', 2 lone pair).O=Ti=O
2
1 pair = 2 shoes, so you just need to multiply the number of pairs by 2 to get the number of shoes.