How to find the 1st term, the common difference, and the nth term of the arithmetic sequence described below? (1) 4th term is 11; 10th term is 29 (2) 8th term is 4; 18th term is -96

2 Answers
Jun 29, 2018

1)#1# st term is #2# and common difference is #3#
2)#1#st term is #74# and common difference is #-10#
#n# th term of an A.P series is # T_n=a+(n-1)d#

Explanation:

Let #a,d,n# be the first term , common difference and number of

terms respectively on A.P series.

#n# th term of an A.P series is # T_n=a+(n-1)d#

1) #T_4=11 :. a+(4-1)d = 11 or a +3 d = 11; (1)#

#T_10=29 :. a+(10-1)d = 29 or a +9 d = 29; (2)#

Multiplying equation (1) by #3# on both sides we get,

# 3 a +9 d = 33; (3)# . Subtracting equation (2) from equation (3)

we get , # (3 a +9 d)- (a+9 d) = 29 or 2 a =4 or a =2# .

Putting #a=2# in equation (1) we get, # 3 d= 11-2 or d =3#

#1# st term is #2# and common difference is #3#

2) #T_8=4 :. a+(8-1)d = 4 or a +7 d = 4; (1)#

#T_18=-96 :. a+(18-1)d = -96 or a +17 d = -96; (2)#

Subtracting equation (2) from equation (1) we get,

#-10 d =100 or d = -10 # Putting #d=-10# in equation (1)

we get, # a +7 *(-10)=4 or a =74#

#1# st term is #74# and common difference is #-10# [Ans]

Jun 29, 2018

#a_4=11#
#a_10=29#

There are many ways to resolve. One of them is apply definition of general term of an arithemtic sequence

#a_n=a_1+(n-1)d#

We have
#a_4=a_1+(4-1)d=a_1+3d=11#
#a_10=a_1+(10-1)d=a_1+9d=29#

With this pair of values we have enough to determine #a_1 and d#

#a_1=11-3d#, then in second, #11-3d+9d=29# or equivalent

#6d=29-11=18# so #d=18/6=3# and #a_1=11-3·3=2#

We have then #a_n=2+(n-1)3=3n-1=#

Lets check if this general term works

#a_10=2+9·3=29#

Now follow the same process to resolve second sequence
#a_8=4#
#a_18=-96#