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Time discretization of nonlinear Cauchy problems applying to mixed hyperbolic-parabolic equations. (English) Zbl 0859.35077
The authors consider the Cauchy evolution problem $Lu_{tt}+Bu_t+Au\ni f\quad\text{in }(0,T),\quad u(0)=u_0,\quad u_t(0)=v_0.$ Here $$L:H\to H$$ and $$A:V\to V'$$ are two linear, bounded selfadjoint operators, where $$V$$, $$H$$ are Hilbert spaces such that $$V\subset H$$ is continuously imbedded and dense. $$B$$ is a maximal monotone operator from $$V$$ to $$V'$$. $$L$$ may be degenerate but the sum $$L+B$$ is assumed to be coercive in $$H$$. The condition on the map $$\alpha I+A$$ is to be strongly monotone from $$V$$ to $$V'$$ for all $$\alpha>0$$, where $$I$$ denotes the identity in $$H$$. The case where $$L=I$$ has previously been studied e.g. by J.-L. Lions and W. A. Strauss [Bull. Soc. Math. Fr. 93, 43-96 (1965; Zbl 0132.10501)].
The authors prove the existence and uniqueness of a variational solution of the given problem. The existence proof is obtained by discretizing the problems with respect to time with the backward Euler method. The Euler approximations are shown to converge with order $$O(\tau^{1/2})$$, where $$\tau$$ is the time increment.

##### MSC:
 35L80 Degenerate hyperbolic equations 35R70 PDEs with multivalued right-hand sides 34G10 Linear differential equations in abstract spaces 35A05 General existence and uniqueness theorems (PDE) (MSC2000) 35A35 Theoretical approximation in context of PDEs
##### Keywords:
maximal monotone operator; backward Euler method
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