its what you think and i am radio rebel
No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.
Here's a start umbers=[True]*5001 index=2 primes=[] while index<5000: multiplier=2 while index*multiplier <= 5000: Numbers[index*multiplier]=False multiplier+=1 index+=1 while Numbers[index]==False and index < 5000: index+=1 for x in range(0,5000): if Numbers[x]==True: primes.append(x) x+=1 print primes
That is true.
Base
The answer depends on what information you have. Given only one number, all that can be said is that the base is larger than the largest digit appearing in the number.Equations will not help if there are no "carries". For example,For example, 10 + 12 = 22 is true in any base greater than or equal to 3.[In base 3, it is 3+5=8, in base 4, it is 4+6=10, in base 500 it is 500+502=1002, in base e (= 2.7183...) it is 2.7183+4.7183 =7.4366 (approx).]
It appears in the denominator
The value of the variable in the base period forms the basis of comparison of the variable in other periods.
No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.No, it does not. It the quantity being measured is less than it was in the base period, ten the index will be less than 100.
false
true
Here's a start umbers=[True]*5001 index=2 primes=[] while index<5000: multiplier=2 while index*multiplier <= 5000: Numbers[index*multiplier]=False multiplier+=1 index+=1 while Numbers[index]==False and index < 5000: index+=1 for x in range(0,5000): if Numbers[x]==True: primes.append(x) x+=1 print primes
True
It is triple the number of edges on one base.
An index is a systematic way of referencing an ordered a set of objects.
It is three times the number of sides on a base of the prism.
It's 10000 .Actually, that's true regardless of whatever base it's written in.
The expected number of older Americans during the period of 2010--2030 will increase dramatically.