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@ -1012,9 +1012,9 @@ if (firstTime != ON)
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// double Yi = 8.5 * sin(1.37) * sin((2.0 * 3.14 * time / (46.0 * 2)) + (3.14/2.0)) + rnd_float(-1, 1);
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// double Zi = 9.0 * cos(1.37 - 0.2) * sin((2.0 * 3.14 * time / (46.0 * 2)) + 3.14 + 0.785) + rnd_float(-1, 1);
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double Xi = eclipse * amps_max[0] * sin(2.0 * 3.14 * time / (46.0 * speed)) * sin(2.0 * 3.14 * time / (46.0 * speed)) + rnd_float(-2, 2);
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double Yi = eclipse * amps_max[1] * sin((2.0 * 3.14 * time / (46.0 * speed)) + (3.14/2.0)) * sin((2.0 * 3.14 * time / (46.0 * speed)) + (3.14/2.0)) + rnd_float(-2, 2);
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double Zi = eclipse * amps_max[2] * sin((2.0 * 3.14 * time / (46.0 * speed)) + 3.14 + angle[2]) * sin((2.0 * 3.14 * time / (46.0 * speed)) + 3.14 + angle[2]) + rnd_float(-2, 2);
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double Xi = eclipse * amps_max[0] * sin(2.0 * 3.14 * time / (46.0 * speed)) * fabs(sin(2.0 * 3.14 * time / (46.0 * speed))) + rnd_float(-2, 2);
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double Yi = eclipse * amps_max[1] * sin((2.0 * 3.14 * time / (46.0 * speed)) + (3.14/2.0)) * fabs(sin((2.0 * 3.14 * time / (46.0 * speed)) + (3.14/2.0))) + rnd_float(-2, 2);
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double Zi = eclipse * amps_max[2] * sin((2.0 * 3.14 * time / (46.0 * speed)) + 3.14 + angle[2]) * fabs(sin((2.0 * 3.14 * time / (46.0 * speed)) + 3.14 + angle[2])) + rnd_float(-2, 2);
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double Xv = eclipse * volts_max[0] * sin(2.0 * 3.14 * time / (46.0 * speed)) + rnd_float(-0.2, 0.2);
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double Yv = eclipse * volts_max[1] * sin((2.0 * 3.14 * time / (46.0 * speed)) + (3.14/2.0)) + rnd_float(-0.2, 0.2);
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alanbjohnston
5 years ago
committed by
GitHub