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Equations of the form asinx + bcosx = c

Equations of the form asinx + bcosx = c. Method 1: Using the t results. Equations of the form asinx + bcosx = c. Method 1: Using the t results. Equations of the form asinx + bcosx = c. Method 1: Using the t results. Equations of the form asinx + bcosx = c.

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Equations of the form asinx + bcosx = c

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  1. Equations of the form asinx + bcosx = c Method 1: Using the t results

  2. Equations of the form asinx + bcosx = c Method 1: Using the t results

  3. Equations of the form asinx + bcosx = c Method 1: Using the t results

  4. Equations of the form asinx + bcosx = c Method 1: Using the t results

  5. Equations of the form asinx + bcosx = c Method 1: Using the t results

  6. Equations of the form asinx + bcosx = c Method 1: Using the t results

  7. Equations of the form asinx + bcosx = c Method 1: Using the t results

  8. Equations of the form asinx + bcosx = c Method 1: Using the t results

  9. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2

  10. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2

  11. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2

  12. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2 Q1

  13. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2 Q1

  14. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2 Q1

  15. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2 Q1

  16. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2 Q1

  17. Equations of the form asinx + bcosx = c Method 1: Using the t results Q2 Q1

  18. Method 2: Auxiliary Angle Method (i) Change into a sine function

  19. Method 2: Auxiliary Angle Method (i) Change into a sine function

  20. Method 2: Auxiliary Angle Method (i) Change into a sine function

  21. Method 2: Auxiliary Angle Method (i) Change into a sine function

  22. Method 2: Auxiliary Angle Method (i) Change into a sine function sin corresponds to 3, so 3 goes on the opposite side

  23. Method 2: Auxiliary Angle Method (i) Change into a sine function

  24. Method 2: Auxiliary Angle Method (i) Change into a sine function cos corresponds to 4, so 4 goes on the adjacent side

  25. Method 2: Auxiliary Angle Method (i) Change into a sine function by Pythagoras the hypotenuse is 5

  26. Method 2: Auxiliary Angle Method (i) Change into a sine function by Pythagoras the hypotenuse is 5

  27. Method 2: Auxiliary Angle Method (i) Change into a sine function by Pythagoras the hypotenuse is 5

  28. Method 2: Auxiliary Angle Method (i) Change into a sine function by Pythagoras the hypotenuse is 5 The hypotenuse becomes the coefficient of the trig function

  29. Method 2: Auxiliary Angle Method (i) Change into a sine function

  30. Method 2: Auxiliary Angle Method (i) Change into a sine function

  31. Method 2: Auxiliary Angle Method (i) Change into a sine function

  32. Method 2: Auxiliary Angle Method (i) Change into a sine function

  33. Method 2: Auxiliary Angle Method (i) Change into a sine function

  34. Method 2: Auxiliary Angle Method (i) Change into a sine function

  35. Method 2: Auxiliary Angle Method (i) Change into a sine function

  36. Method 2: Auxiliary Angle Method (i) Change into a sine function

  37. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

  38. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

  39. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

  40. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

  41. Method 2: Auxiliary Angle Method (ii) Change into a cosine function cos corresponds to 3, so 3 goes on the adjacent side

  42. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

  43. Method 2: Auxiliary Angle Method (ii) Change into a cosine function cos corresponds to 4, so 4 goes on the adjacent side

  44. Method 2: Auxiliary Angle Method (ii) Change into a cosine function by Pythagoras the hypotenuse is 5

  45. Method 2: Auxiliary Angle Method (ii) Change into a cosine function by Pythagoras the hypotenuse is 5

  46. Method 2: Auxiliary Angle Method (ii) Change into a cosine function by Pythagoras the hypotenuse is 5

  47. Method 2: Auxiliary Angle Method (ii) Change into a cosine function by Pythagoras the hypotenuse is 5 The hypotenuse becomes the coefficient of the trig function

  48. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

  49. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

  50. Method 2: Auxiliary Angle Method (ii) Change into a cosine function

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