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on 18 Oct 2024
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"Perfect" by Ed Sheeran
drawframe(1);
a = 0
m = 1×1000
0 0.0003 0.0012 0.0027 0.0047 0.0074 0.0107 0.0145 0.0190 0.0240 0.0297 0.0359 0.0427 0.0501 0.0581 0.0667 0.0759 0.0857 0.0960 0.1070 0.1185 0.1306 0.1434 0.1567 0.1706 0.1850 0.2001 0.2158 0.2320 0.2488
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n = 1×1000
1.0000 1.0003 1.0012 1.0027 1.0048 1.0074 1.0107 1.0146 1.0192 1.0243 1.0301 1.0365 1.0436 1.0514 1.0598 1.0690 1.0788 1.0894 1.1008 1.1129 1.1258 1.1396 1.1542 1.1696 1.1860 1.2033 1.2215 1.2408 1.2611 1.2825
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n1 = 1×1000
2.0000 2.0003 2.0012 2.0027 2.0048 2.0074 2.0107 2.0146 2.0192 2.0243 2.0301 2.0365 2.0436 2.0514 2.0598 2.0690 2.0788 2.0894 2.1008 2.1129 2.1258 2.1396 2.1542 2.1696 2.1860 2.2033 2.2215 2.2408 2.2611 2.2825
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n2 = 1×1000
0.4650 0.4649 0.4647 0.4644 0.4639 0.4633 0.4625 0.4616 0.4606 0.4594 0.4581 0.4567 0.4551 0.4534 0.4515 0.4495 0.4474 0.4451 0.4427 0.4402 0.4375 0.4347 0.4317 0.4286 0.4254 0.4221 0.4186 0.4150 0.4113 0.4074
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x = 1×1000
1.4650 1.4206 1.2958 1.1147 0.9120 0.7265 0.5937 0.5387 0.5716 0.6857 0.8587 1.0569 1.2423 1.3795 1.4427 1.4202 1.3173 1.1541 0.9625 0.7791 0.6387 0.5673 0.5773 0.6655 0.8136 0.9923 1.1668 1.3039 1.3780 1.3760
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y = 1×1000
0 0.0089 0.0163 0.0210 0.0229 0.0229 0.0224 0.0237 0.0288 0.0389 0.0541 0.0732 0.0939 0.1130 0.1274 0.1344 0.1330 0.1239 0.1094 0.0936 0.0808 0.0754 0.0804 0.0969 0.1237 0.1573 0.1925 0.2236 0.2452 0.2538
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z = 1×1000
0 0.1981 0.3583 0.4499 0.4555 0.3742 0.2217 0.0276 -0.1711 -0.3361 -0.4363 -0.4528 -0.3829 -0.2407 -0.0538 0.1417 0.3085 0.4151 0.4416 0.3839 0.2540 0.0775 -0.1114 -0.2766 -0.3868 -0.4221 -0.3767 -0.2607 -0.0974 0.0815
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Write your drawframe function below
% The Schrödinger equation is a partial differential equation that governs the wave function
% of a non-relativistic quantum-mechanical system. Its discovery was a significant landmark
% in the development of quantum mechanics. It is named after Erwin Schrödinger,
% who postulated the equation in 1925 and published it in 1926.
% Conceptually, the Schrödinger equation is the quantum counterpart
% of Newton's second law in classical mechanics.
% Given a set of known initial conditions, Newton's second law makes
% a mathematical prediction as to what path a given physical system will take over time.
% The Schrödinger equation gives the evolution over time of the wave function,
% the quantum-mechanical characterization of an isolated physical system.
% The equation was postulated by Schrödinger based on a postulate of
% Louis de Broglie that all matter has an associated matter wave.
% The equation predicted bound states of the atom in agreement with experimental observations
% Dhimas Mahardika S.Si., M.Mat
% from Sanggung Utara, Jatingaleh, Candisari
% Universitas Nasional Karangturi
% Universitas Diponegoro
function drawframe(f)
t = linspace(0,2*pi,1000);
h = linspace(0,2*pi,96);
a=h(f)
m=30*(sin(0.5*t-0.5*a)).^2
n=(2.71828).^m
n1=1+n
n2=0.93./n1
x=cos(t)+n2.*cos(70*t).*cos(t)
y=sin(t)+n2.*cos(70*t).*sin(t)
z=n2.*sin(70*t)
plot3(x,y,z,'LineWidth',2,'Color',[0 0 0])
axis equal
axis([-1.7 1.7 -1.7 1.7 -0.7 0.7])
end
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