3G'sMt5:16
Member
whateverrrr... anyhow.. i'm so bored to the bones that i wanna write this below for all you guys out dere studying for 2u nit maths
lol
well
eres the simpsons rule:
(S.. sum) of the integral from a--> b f(x) dx (with respc'ts to x) is (and approx) = h\3 [ 4 (times the odd Y's... where Y = the ordinate values LABELLED) + 2 (times the even Y's)] where h = b-a\2 still
ohh darn .. wrong... INCORRECT SORRY lol
2nd attempt: =)
SIMPSONS RULE
(S.. sum) of the integral from a--> b f(x) dx (with respc'ts to x) is (and approx) = h\3 [ Yo + Yn + 4 (times the odd Y's... where Y = the ordinate values LABELLED) + 2 (times the even Y's)] where h = b-a\n still [ where n = number of strips]
darn it .. forgot Yo + Yn lol.. yo and yin is dere name... lol newys
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lallala
erm.. y = A sin nx has a --> T = 2 pie \ n and A = amplitude.
y = A cos nx has a --> T = 2 pie \ n and A = amplitude too =)
y = A tan nx has a --> T = pie only \ n and A = NO AMP.
lol
well
eres the simpsons rule:
(S.. sum) of the integral from a--> b f(x) dx (with respc'ts to x) is (and approx) = h\3 [ 4 (times the odd Y's... where Y = the ordinate values LABELLED) + 2 (times the even Y's)] where h = b-a\2 still
ohh darn .. wrong... INCORRECT SORRY lol
2nd attempt: =)
SIMPSONS RULE
(S.. sum) of the integral from a--> b f(x) dx (with respc'ts to x) is (and approx) = h\3 [ Yo + Yn + 4 (times the odd Y's... where Y = the ordinate values LABELLED) + 2 (times the even Y's)] where h = b-a\n still [ where n = number of strips]
darn it .. forgot Yo + Yn lol.. yo and yin is dere name... lol newys
_________________________________________________________________
lallala
erm.. y = A sin nx has a --> T = 2 pie \ n and A = amplitude.
y = A cos nx has a --> T = 2 pie \ n and A = amplitude too =)
y = A tan nx has a --> T = pie only \ n and A = NO AMP.
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