Generate unit circle practice problems for sine, cosine, and tangent at standard angles, with full worked solutions using reference angles and quadrant sign rules.
You are a patient trigonometry tutor who never asks for a unit circle value without being ready to show exactly how the reference angle and the quadrant's sign rules produced it, because memorizing thirty separate values is much harder than learning the handful of patterns that generate every one of them. Work in [MODE:select:generate practice problems,generate practice problems with full worked solutions,check my answer for a specific angle] mode. Give me [NUM_PROBLEMS:number:1-20] problems at [DIFFICULTY:select:quadrant I only,all four quadrants,mixed degrees and radians with conversion] difficulty, using [ANGLE_UNIT:select:degrees,radians,mixed]. If I chose check my answer, my angle is [ANGLE?] and my answer is [MY_ANSWER?]. If I chose generate practice problems, create that many distinct standard-angle problems, each asking for sine, cosine, or tangent of a specific angle, pulled from the standard set, 0, 30, 45, 60, 90, 120, 135, 150, 180, 210, 225, 240, 270, 300, 315, 330, 360 degrees, or their exact radian equivalents. Vary which function you're asking for and which quadrant the angle lands in across the set instead of clustering every problem in quadrant I. If quadrant I only was selected, keep every angle between 0 and 90 degrees. If mixed degrees and radians was selected, write roughly half the problems in each unit and require a conversion before evaluating. List the problems only, without answers, numbered in order. If I chose generate practice problems with full worked solutions, create the identical set of problems, but for each one show the full method: state the reference angle, the acute angle between the terminal side and the x-axis, identify which quadrant the angle falls in, and apply that quadrant's sign rule, positive for all functions in quadrant I, only sine positive in quadrant II, only tangent positive in quadrant III, only cosine positive in quadrant IV. State the reference angle's known value from the standard 0-30-45-60-90 set, then apply the correct sign for the actual quadrant as the final step. If tangent is undefined because cosine is zero at that angle, say so plainly instead of forcing a value. If I chose check my answer for a specific angle, work through my [ANGLE] using the identical reference-angle-and-quadrant-sign method described above, arrive at the correct value independently, and then compare it against my [MY_ANSWER]. State plainly whether we match. If we don't, point to the specific step, the reference angle, the quadrant identification, or the sign, where the divergence happened, instead of just stating the correct answer without explaining where mine went wrong. Whatever mode you're in, if I ask about an angle outside the standard set, such as 15 or 75 degrees, say so plainly and note that it isn't one of the values with a clean exact form on the standard unit circle, then offer a decimal approximation instead of forcing an exact-looking answer that isn't accurate.
Range: 1 - 20
Use this prompt anywhere
10,000+ expert prompts for ChatGPT, Claude, Gemini, and wherever you use AI.
Get Early AccessMemorizing thirty separate unit circle values is exactly the kind of studying that doesn't stick. Learning the reference angle and the four quadrant sign rules, positive everywhere in quadrant I, sine only in quadrant II, tangent only in quadrant III, cosine only in quadrant IV, does, since those few patterns regenerate every value on demand. This tool generates [NUM_PROBLEMS] fresh unit circle problems at whatever [DIFFICULTY] and [ANGLE_UNIT] you set, pulling from the full standard angle set instead of repeating the same handful of easy ones.
Generate practice problems with full worked solutions shows the reference angle, the quadrant identification, and the sign rule applied as separate visible steps for every problem, so the pattern becomes obvious across repeated exposure instead of staying hidden inside a bare answer key.
Check my answer for a specific angle works the problem independently first, then compares against your answer and points to the exact step, reference angle, quadrant, or sign, where a wrong answer diverged.
Run it in the Dock Editor to keep a running log of every practice set you generate, or pair it with the trig identities practice generator once the raw values feel solid and you're ready to manipulate them algebraically. If SOH-CAH-TOA itself still feels shaky, the right triangle trig solver covers the foundation these standard values are built on.
Whether you're using the Dock Editor, ChatGPT, Claude, or Gemini, start by pasting in the full prompt. Set [MODE] to generate practice problems, generate practice problems with full worked solutions, or check my answer for a specific angle.
Choose [NUM_PROBLEMS] from 1 to 20, and set [DIFFICULTY] to quadrant I only, all four quadrants, or mixed degrees and radians with conversion.
Set [ANGLE_UNIT] to degrees, radians, or mixed, depending on what your class or test expects.
Worked solutions state the reference angle, the quadrant, and the applicable sign rule as separate steps before the final value.
Switch to check my answer for a specific angle, supply [ANGLE] and [MY_ANSWER], and see exactly which step a mismatch traces back to.
Generate a fresh batch of unit circle problems for daily practice instead of re-drilling the same memorized handful.
Use all four quadrants difficulty to build comfort applying sign rules outside the easy quadrant I range most students default to.
Run mixed degrees and radians difficulty ahead of an SAT, ACT, or trigonometry final to practice the conversion step alongside the value lookup.
Generate a worksheet and matching answer key in one pass, with every value traceable back to a reference angle and sign rule instead of a bare number.
Discover more prompts that could help with your workflow.
Calculate a term of an arithmetic sequence with the substitution shown, generate practice problems with an answer key, or explain the formula with an example.
Solve for a circle's area from a radius or diameter, showing the squaring step and verifying the result, or find a missing radius from area.
Simplify an algebraic expression, check whether two expressions are truly equivalent, or generate practice problems spotting equivalent and non-equivalent pairs with an answer key.
10,000+ expert-curated prompts for ChatGPT, Claude, Gemini, and wherever you use AI. Our extension helps any prompt deliver better results.