a petio jm,n ;na jn;luih ,mn/m,n; l/kn ohn h nh lno bm ij 8.m,hn lk n;
The letter that comes before the letter M is L. The letter that comes after M in the alphabet is N. Therefore, the letter M is situated between L and N in the alphabet.
False After K: its L(1), M(2), N(3), O(4), P(5), Q(6) Then its R.
T (letters without curves)
KL m N op Q rst U See the pattern, the answer is U
If l > m and m > n then l > n by the transitive property of inequality.
15
k, l, m, and n are integers and k x l = 6, l x m = 20 m x n = 15 and k x n =9
l is greater than n
M is before N and after L
I-L-L-I-nois m-A-S-S-A-chusetts m-I-S-S-I-ssippi t-E-N-N-E-ssee :]
First, we can use the distance formula to find the length of LM: d(L,M) = sqrt((4 - (-3))^2 + (9 - 1)^2) = sqrt(49 + 64) = sqrt(113) Since LM:MN = 2:3, we can express the distance from L to N as (3/2) times the distance from L to M: d(L,N) = (3/2) * d(L,M) = (3/2) * sqrt(113) To find the coordinates of N, we need to determine the direction from M to N. We know that LMN is a straight line, so the direction from M to N is the same as the direction from L to M. We can find this direction by subtracting the coordinates of L from the coordinates of M: direction = (4 - (-3), 9 - 1) = (7, 8) To find the coordinates of N, we start at M and move in the direction of LMN for a distance of (3/2) * d(L,M): N = M + (3/2) * d(L,M) * direction / ||direction|| where ||direction|| is the length of the direction vector, which is: ||direction|| = sqrt(7^2 + 8^2) = sqrt(113) Substituting the values, we get: N = (4, 9) + (3/2) * sqrt(113) * (7/sqrt(113), 8/sqrt(113)) Simplifying, we get: N = (4 + (21/2), 9 + (24/2)) = (14.5, 21) Therefore, the coordinates of N are (14.5, 21). Answered by ChatGPT 3
L and N orbit M
N=l-m
N. M. L. Barnes has written: 'Civil engineering bills of quantities'
Line L is parallel to line n.
They stole the gems from L, M, N, O, and P.