SOLUTION: Solve the equation
2.7sin(3θ)+0.729=−1.026 for θ. First solve to find the general form of all solutions (using arbitrary integer k), where θ1 and θ2 are
Algebra.Com
Question 1101626: Solve the equation
2.7sin(3θ)+0.729=−1.026 for θ. First solve to find the general form of all solutions (using arbitrary integer k), where θ1 and θ2 are angles on [0,2π) with θ1 less than θ2.
θ1=
θ2=
Use the general solutions above to find all the solutions to
2.7sin(3θ)+0.729=−1.026 on the interval [0,2π). (Round your answers to four decimal places. Separate multiple solutions with a comma.)
Answer by stanbon(75887) (Show Source): You can put this solution on YOUR website!
2.7sin(3θ)+0.729=−1.026 for θ. First solve to find the general form of all solutions (using arbitrary integer k), where θ1 and θ2 are angles on [0,2π) with θ1 less than θ2.
2.7sin(3t) = -1.026-0.729 = -1.755
sin(3t) = -0.65
3t = -0.7076 or 3t = 3.8492
θ1= -0.2359 radians
θ2= 1.2831 radians
-----------
Cheers,
Stan H.
------------
Use the general solutions above to find all the solutions to
2.7sin(3θ)+0.729=−1.026 on the interval [0,2π). (Round your answers to four decimal places. Separate multiple solutions with a comma.)
RELATED QUESTIONS
Given that tan θ − cot θ = 2,
find the possible values of tan... (answered by ikleyn)
Solve the following equation approximately for 0≤θ≤2Π
with θ... (answered by lwsshak3)
Solve the equation (2 cos θ + 1)(tan θ − 1) = 0 for 0 ≤ θ... (answered by josmiceli)
Find the values of the trigonometric functions of θ of cot θ = 1/2, sin θ... (answered by ewatrrr)
Determine the values of
2θ (not θ) on [0,2π) that satisfy the following... (answered by stanbon,ikleyn)
FInd all solutions 2 cos 2θ − 1 = 0
Find all solutions of the equation.... (answered by stanbon,t0hierry)
Please solve the following equation.
(Enter your answers as a comma-separated list. Let (answered by jim_thompson5910)
Solve the following equation.
(Enter your answers as a comma-separated list. Let k be... (answered by ewatrrr)
solve the following equation for θ of 0° and 360°
3sin^2θ +... (answered by lwsshak3)