There is motiple varibles that can come into affect. Such as the person's age, weight, and gender.
recursive rule: term(n+1) = term(n) + (n) also, n starts at 0 and term(1)=3 term(1) = 3 ; (n=0) term(2) = term(1) + (1) = 4 term(3) = term(2) + (2) = 6 term(4) = term(3) + (3) = 9 term(5) = term(4) + (4) = 13 . . .
varibles
2 over 4 in the lowest term is 1/2 or a half (0.50)
1 1 2 3 5 etc start with 1 and 1 and to get the 3rd term 1+1 = 2 add 2nd and 3rd term to get 4th --- 1 + 2 = 3 add 3rd and 4th term to get the 5th --- 2 + 3 = 5 etc
too many varibles to answer
only if they have keys that tell you what the varibles mean..... but in high school they teach you a way to find the answer but put the varibles as an exponent
0,1,4,9,16, = 0^2 , 1^2 , 2^2, 3^3, 4^2, We notice every number is squared '^2'. The coeffficients of each term are one less that the term number. Hence #1 ; 0^2 = ( 1 - 1)^2 #2 ; 1^2 = ( 2- 1)^2 #3 ; 2^2 = ( 3 -1)^2 #4 ; 3^2 = ( 4 -1)^2 So the general rule to find the 'n th' term is #n ; ( n - 1)^2
It is still an equation.
independent varibles
The general term for the sequence 0, 1, 1, 2, 2, 3, 3 is infinite sequence.
2 over 4 in the lowest term is 1/2 or a half (0.50)
That one on the left.
1/2
for the Fibonacci sequence, the first two terms are one (1), then the next term is found by adding the previous two terms: 1, 1, 2, 3, 5, 8, 13, 21, 34..... 1+1 =2 (the third term) 1+2 =3 (the fourth term) 2+3 =5 (the fifth term) 3+5 =8 (the sixth term) etc. for any whole number n > 2: F(n) = F(n-1) + F(n-2)
1st term is 1 to the power of 1 = 1 2nd term is 2 to the power of 2 = 4 3rd term is 3 to the power of 3 = 27 4th term is 4 to the power of 4 = 256
There are alot of varibles for action that can be or should have been taken 1 - Did your father notice, if so, did he say anything? 2 - Did the driver know or think he was fastened in? 3 - Did it cause any problems?