Input:
pdsolve(ds(y,t,0.5)=2*ds(y,x,0.5)-y^2)
Write:
`pdsolve(ds(y,t,0.5)=2*ds(y,x,0.5)-y^2)`
Compute:
$$pdsolve(\frac{d^{{0.5}}y}{dt^{{0.5}}}=2\ \frac{d^{{0.5}}y}{dx^{{0.5}}} - {y}^{2})$$
Output:
$$pdsolve(\frac{d^{{0.5}}y}{dt^{{0.5}}}=2\ \frac{d^{{0.5}}y}{dx^{{0.5}}} - {y}^{2})== (-1.1283791670955126)\ \sqrt{t}+1.4142135623730951\ tan_{0.5} (0.7071067811865475\ (C_1+\sqrt{x}))$$
Result: $$(-1.1283791670955126)\ \sqrt{t}+1.4142135623730951\ tan_{0.5} (0.7071067811865475\ (C_1+\sqrt{x}))$$
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