# Search results

Mathematical Methods in the Applied Sciences > 45 > 13 > 8294 - 8304

Mathematical Methods in the Applied Sciences > 45 > 13 > 8115 - 8124

Mathematical Methods in the Applied Sciences > 45 > 11 > 7058 - 7071

Mathematical Methods in the Applied Sciences > 44 > 17 > 12931 - 12944

Mathematical Methods in the Applied Sciences > 44 > 11 > 8814 - 8837

Mathematical Methods in the Applied Sciences > 44 > 11 > 8999 - 9011

*T*) with a nonlinear feedback having a variable exponent

*m*(

*x*) and a time‐dependent coefficient

*α*(

*t*). We use the multiplier method to establish energy decay results depending on both

*m*and

*α*.

Studies in Applied Mathematics > 146 > 1 > 139 - 210

Mathematical Methods in the Applied Sciences > 44 > 2 > 1651 - 1663

Mathematical Methods in the Applied Sciences > 43 > 17 > 10115 - 10137

Mathematical Methods in the Applied Sciences > 43 > 16 > 9387 - 9404

Studies in Applied Mathematics > 145 > 3 > 483 - 499

Mathematical Methods in the Applied Sciences > 43 > 7 > 4007 - 4015

Mathematical Methods in the Applied Sciences > 43 > 3 > 1278 - 1291

*u*

_{±}(

*u*

_{−}<

*u*

_{+}) as

*x*→±

*∞*, respectively. It shows that there is a global classical solution that converges toward the rarefaction wave, ie, the unique entropy solution of the Riemann problem for the nonviscous...

Boundary Value Problems > 2019 > 2019 > 1 > 1-13

Nonlinear Differential Equations and Applications NoDEA > 2019 > 26 > 6 > 1-19

Functional Analysis and Its Applications > 2019 > 53 > 3 > 229-231

Boundary Value Problems > 2019 > 2019 > 1 > 1-4

Mathematical Methods in the Applied Sciences > 42 > 15 > 4939 - 4956