Idk if you wanted me to find it for all three or combine them all so i'll combine them all.
Combined all three: 4.50446745 ×
Answer:
Step-by-step explanation:
I have a attached picture that shows both graphs and include some conclusions.
solution:
we have the solution as
x(t)= c1*cos(t) + c2*sin(t)
=>x'(t) = -c1*sin(t) +c2*cos(t)
given x(π/3)=sqrt(3)/2 and x'(π/3)=0
=>sqrt(3)/2= c1*(1/2) + c2*(sqrt(3)/2) ------------------------> (1)
and 0= -c1*(sqrt(3)/2) + c2*(1/2) --------------------------->(2)
=>c2=c1*sqrt(3)
using this in (1) we get
sqrt(3)/2= c1*(1/2) + c1*(3/2)
=>c1= sqrt(3)/4
and c2=3/4
x(t) = (sqrt(3)/4)*cos(t) +(3/4)*sin(t)
Answer:
98.75%.
Step-by-step explanation:
On March 20, 2011, a $1000 bond had a selling price of $987.50.
We are asked what will be the quoted price for the bond.
Now, the quoted price of a bond is the price at which the bond was last traded and it is expressed as the percentage of the original bond value.
So, in our case the quoted price will be %. (Answer)
The answer for this Question is NO 4