Mathematica ✓

ClearAll["Global`*"]; 
pde =  a*D[w[x, y,z], x] + b*D[w[x, y,z], y] +c*ArcSin[lambda*x]^n*ArcSin[beta*z]^k*D[w[x,y,z],z]==0; 
sol =  AbsoluteTiming[TimeConstrained[DSolve[pde, w[x, y,z], {x, y,z}], 60*10]];
 

\[\left \{\left \{w(x,y,z)\to c_1\left (y-\frac {b x}{a},-\int _1^x\frac {c \sin ^{-1}(\lambda K[1])^n}{a}dK[1]-\frac {i \sin ^{-1}(\beta z)^{-k} \left (\left (-i \sin ^{-1}(\beta z)\right )^k \text {Gamma}\left (1-k,-i \sin ^{-1}(\beta z)\right )-\left (i \sin ^{-1}(\beta z)\right )^k \text {Gamma}\left (1-k,i \sin ^{-1}(\beta z)\right )\right )}{2 \beta }\right )\right \}\right \}\]

Maple ✓

restart; 
pde :=  a*diff(w(x,y,z),x)+ b*diff(w(x,y,z),y)+c*arcsin(lambda*x)^n*arcsin(beta*z)^k*diff(w(x,y,z),z)= 0; 
cpu_time := timelimit(60*10,CodeTools[Usage](assign('sol',pdsolve(pde,w(x,y,z))),output='realtime'));
 

\[w \left ( x,y,z \right ) ={\it \_F1} \left ( {\frac {ya-bx}{a}},-2\,{\frac {1}{\lambda \, \left ( n+1 \right ) \left ( {\lambda }^{2}{x}^{2}-1 \right ) c\beta \, \left ( k-1 \right ) } \left ( 1/2\,{2}^{n}\lambda \,{2}^{-n}cx\beta \, \left ( k-1 \right ) \left ( -{\frac {\LommelS 1 \left ( n+3/2,1/2,\arcsin \left ( \lambda \,x \right ) \right ) }{\sqrt {\arcsin \left ( \lambda \,x \right ) }}}+ \left ( \arcsin \left ( \lambda \,x \right ) \right ) ^{n} \right ) \left ( -{\lambda }^{2}{x}^{2}+1 \right ) +1/2\,{2}^{n}{2}^{-n}\arcsin \left ( \lambda \,x \right ) c\beta \, \left ( \lambda \,x-1 \right ) \left ( \lambda \,x+1 \right ) \left ( k-1 \right ) \left ( -{\frac {\LommelS 1 \left ( n+3/2,1/2,\arcsin \left ( \lambda \,x \right ) \right ) }{\sqrt {\arcsin \left ( \lambda \,x \right ) }}}+ \left ( \arcsin \left ( \lambda \,x \right ) \right ) ^{n} \right ) \sqrt {-{\lambda }^{2}{x}^{2}+1}+ \left ( \lambda \,x+1 \right ) \left ( -1/2\,{\frac {a{2}^{-k}{2}^{k} \left ( n+1 \right ) \left ( \arcsin \left ( \beta \,z \right ) \LommelS 1 \left ( -k+3/2,1/2,\arcsin \left ( \beta \,z \right ) \right ) - \left ( \arcsin \left ( \beta \,z \right ) \right ) ^{-k} \left ( \arcsin \left ( \beta \,z \right ) \right ) ^{3/2} \right ) \sqrt {-{\beta }^{2}{z}^{2}+1}}{\sqrt {\arcsin \left ( \beta \,z \right ) }}}+\beta \, \left ( 1/2\,{\frac {a{2}^{-k}z{2}^{k} \left ( n+1 \right ) \LommelS 1 \left ( -k+3/2,1/2,\arcsin \left ( \beta \,z \right ) \right ) }{\sqrt {\arcsin \left ( \beta \,z \right ) }}}-1/2\,a{2}^{-k}\sqrt {\arcsin \left ( \beta \,z \right ) }kz{2}^{k} \left ( n+1 \right ) \LommelS 1 \left ( -k+1/2,3/2,\arcsin \left ( \beta \,z \right ) \right ) +1/2\,{2}^{n}{2}^{-n}c\sqrt {\arcsin \left ( \lambda \,x \right ) }nx \left ( k-1 \right ) \LommelS 1 \left ( n+1/2,3/2,\arcsin \left ( \lambda \,x \right ) \right ) +{2}^{-k} \left ( \arcsin \left ( \beta \,z \right ) \right ) ^{-k} \left ( n+1 \right ) az \left ( {2}^{k-1}-1/2\,{2}^{k} \right ) +{2}^{n}{2}^{-n-1}c \left ( \arcsin \left ( \lambda \,x \right ) \right ) ^{n}x \left ( k-1 \right ) \right ) \right ) \lambda \, \left ( \lambda \,x-1 \right ) \right ) } \right ) \]

Mathematica ✓

ClearAll["Global`*"]; 
pde =  a*D[w[x, y,z], x] + b*D[w[x, y,z], y] +c*ArcSin[lambda*x]^n*ArcSin[beta*y]^m*ArcSin[gamma*z]^k*D[w[x,y,z],z]==0; 
sol =  AbsoluteTiming[TimeConstrained[DSolve[pde, w[x, y,z], {x, y,z}], 60*10]];
 

\[\left \{\left \{w(x,y,z)\to c_1\left (y-\frac {b x}{a},-\int _1^x\frac {c \sin ^{-1}(\lambda K[1])^n \left (\left (\frac {a \sin ^{-1}(\lambda K[1])^{-n} \text {InverseFunction}[\text {Inactive}[\text {Integrate}],1,2]\left [\int _1^x\frac {c \sin ^{-1}(\lambda K[1])^n \sin ^{-1}\left (\beta \left (y+\frac {b (K[1]-x)}{a}\right )\right )^m}{a}dK[1],\{K[1],1,x\}\right ]}{c}\right ){}^{\frac {1}{m}}\right ){}^m}{a}dK[1]-\frac {i \sin ^{-1}(\gamma z)^{-k} \left (\left (-i \sin ^{-1}(\gamma z)\right )^k \text {Gamma}\left (1-k,-i \sin ^{-1}(\gamma z)\right )-\left (i \sin ^{-1}(\gamma z)\right )^k \text {Gamma}\left (1-k,i \sin ^{-1}(\gamma z)\right )\right )}{2 \gamma }\right )\right \}\right \}\]

Maple ✓

restart; 
pde :=  a*diff(w(x,y,z),x)+ b*diff(w(x,y,z),y)+c*arcsin(lambda*x)^n*arcsin(beta*y)^m*arcsin(gamma1*z)^k*diff(w(x,y,z),z)= 0; 
cpu_time := timelimit(60*10,CodeTools[Usage](assign('sol',pdsolve(pde,w(x,y,z))),output='realtime'));
 

\[w \left ( x,y,z \right ) ={\it \_F1} \left ( {\frac {ya-bx}{a}},-\int ^{x}\! \left ( \arcsin \left ( {\it \_a}\,\lambda \right ) \right ) ^{n} \left ( \arcsin \left ( {\frac { \left ( ya-b \left ( x-{\it \_a} \right ) \right ) \beta }{a}} \right ) \right ) ^{m}{d{\it \_a}}+{\frac {a{2}^{-k} \left ( {2}^{k}\arcsin \left ( \gamma 1\,z \right ) k\LommelS 1 \left ( -k+1/2,3/2,\arcsin \left ( \gamma 1\,z \right ) \right ) \gamma 1\,z-{2}^{k} \left ( \arcsin \left ( \gamma 1\,z \right ) \right ) ^{-k+3/2}\sqrt {-{\gamma 1}^{2}{z}^{2}+1}+\arcsin \left ( \gamma 1\,z \right ) \sqrt {-{\gamma 1}^{2}{z}^{2}+1}\LommelS 1 \left ( -k+3/2,1/2,\arcsin \left ( \gamma 1\,z \right ) \right ) {2}^{k}-z\LommelS 1 \left ( -k+3/2,1/2,\arcsin \left ( \gamma 1\,z \right ) \right ) {2}^{k}\gamma 1 \right ) }{ \left ( k-1 \right ) \gamma 1\,c\sqrt {\arcsin \left ( \gamma 1\,z \right ) }}} \right ) \]

Mathematica ✓

ClearAll["Global`*"]; 
pde =  a*D[w[x, y,z], x] + b*ArcSin[lambda*x]^n*D[w[x, y,z], y] +c*ArcSin[beta*x]^k*D[w[x,y,z],z]==0; 
sol =  AbsoluteTiming[TimeConstrained[DSolve[pde, w[x, y,z], {x, y,z}], 60*10]];
 

\[\left \{\left \{w(x,y,z)\to c_1\left (z+\frac {i c \sin ^{-1}(\beta x)^k \left (\sin ^{-1}(\beta x)^2\right )^{-k} \left (\left (i \sin ^{-1}(\beta x)\right )^k \text {Gamma}\left (k+1,-i \sin ^{-1}(\beta x)\right )-\left (-i \sin ^{-1}(\beta x)\right )^k \text {Gamma}\left (k+1,i \sin ^{-1}(\beta x)\right )\right )}{2 a \beta },y-\int _1^x\frac {b \sin ^{-1}(\lambda K[1])^n}{a}dK[1]\right )\right \}\right \}\]

Maple ✓

restart; 
pde :=  a*diff(w(x,y,z),x)+ b*arcsin(lambda*x)^n*diff(w(x,y,z),y)+c*arcsin(beta*x)^k*diff(w(x,y,z),z)= 0; 
cpu_time := timelimit(60*10,CodeTools[Usage](assign('sol',pdsolve(pde,w(x,y,z))),output='realtime'));
 

\[w \left ( x,y,z \right ) ={\it \_F1} \left ( {\frac {b{2}^{n}{2}^{-n} \left ( \arcsin \left ( \lambda \,x \right ) \LommelS 1 \left ( n+3/2,1/2,\arcsin \left ( \lambda \,x \right ) \right ) - \left ( \arcsin \left ( \lambda \,x \right ) \right ) ^{n} \left ( \arcsin \left ( \lambda \,x \right ) \right ) ^{3/2} \right ) \sqrt {-{\lambda }^{2}{x}^{2}+1}+\lambda \, \left ( -bx{2}^{n}{2}^{-n}\LommelS 1 \left ( n+3/2,1/2,\arcsin \left ( \lambda \,x \right ) \right ) -\arcsin \left ( \lambda \,x \right ) \LommelS 1 \left ( n+1/2,3/2,\arcsin \left ( \lambda \,x \right ) \right ) bnx{2}^{n}{2}^{-n}+ \left ( -2\, \left ( \arcsin \left ( \lambda \,x \right ) \right ) ^{n}bx{2}^{n}{2}^{-n-1}+ \left ( \arcsin \left ( \lambda \,x \right ) \right ) ^{n}bx{2}^{n}{2}^{-n}+ay \left ( n+1 \right ) \right ) \sqrt {\arcsin \left ( \lambda \,x \right ) } \right ) }{\sqrt {\arcsin \left ( \lambda \,x \right ) }\lambda \,a \left ( n+1 \right ) }},{\frac {c{2}^{k}{2}^{-k} \left ( \arcsin \left ( \beta \,x \right ) \LommelS 1 \left ( 3/2+k,1/2,\arcsin \left ( \beta \,x \right ) \right ) - \left ( \arcsin \left ( \beta \,x \right ) \right ) ^{k} \left ( \arcsin \left ( \beta \,x \right ) \right ) ^{3/2} \right ) \sqrt {-{\beta }^{2}{x}^{2}+1}+ \left ( -cx{2}^{k}{2}^{-k}\LommelS 1 \left ( 3/2+k,1/2,\arcsin \left ( \beta \,x \right ) \right ) -\arcsin \left ( \beta \,x \right ) \LommelS 1 \left ( k+1/2,3/2,\arcsin \left ( \beta \,x \right ) \right ) ckx{2}^{k}{2}^{-k}+ \left ( -2\, \left ( \arcsin \left ( \beta \,x \right ) \right ) ^{k}cx{2}^{k}{2}^{-1-k}+ \left ( \arcsin \left ( \beta \,x \right ) \right ) ^{k}cx{2}^{k}{2}^{-k}+az \left ( k+1 \right ) \right ) \sqrt {\arcsin \left ( \beta \,x \right ) } \right ) \beta }{\sqrt {\arcsin \left ( \beta \,x \right ) }\beta \,a \left ( k+1 \right ) }} \right ) \]

Mathematica ✓

ClearAll["Global`*"]; 
pde =  a*D[w[x, y,z], x] + b*ArcSin[lambda*x]^n*D[w[x, y,z], y] +c*ArcSin[beta*z]^k*D[w[x,y,z],z]==0; 
sol =  AbsoluteTiming[TimeConstrained[DSolve[pde, w[x, y,z], {x, y,z}], 60*10]];
 

\[\left \{\left \{w(x,y,z)\to c_1\left (-\frac {c x}{a}-\frac {i \sin ^{-1}(\beta z)^{-k} \left (\left (-i \sin ^{-1}(\beta z)\right )^k \text {Gamma}\left (1-k,-i \sin ^{-1}(\beta z)\right )-\left (i \sin ^{-1}(\beta z)\right )^k \text {Gamma}\left (1-k,i \sin ^{-1}(\beta z)\right )\right )}{2 \beta },y-\int _1^x\frac {b \sin ^{-1}(\lambda K[1])^n}{a}dK[1]\right )\right \}\right \}\]

Maple ✗

restart; 
pde :=  a*diff(w(x,y,z),x)+ b*arcsin(lambda*x)^n*diff(w(x,y,z),y)+c*arcsin(beta*z)^k*diff(w(x,y,z),z)= 0; 
cpu_time := timelimit(60*10,CodeTools[Usage](assign('sol',pdsolve(pde,w(x,y,z))),output='realtime'));
 

time expired

Mathematica ✓

ClearAll["Global`*"]; 
pde =  a*D[w[x, y,z], x] + b*ArcSin[lambda*y]^n*D[w[x, y,z], y] +c*ArcSin[beta*z]^k*D[w[x,y,z],z]==0; 
sol =  AbsoluteTiming[TimeConstrained[DSolve[pde, w[x, y,z], {x, y,z}], 60*10]];
 

\[\left \{\left \{w(x,y,z)\to c_1\left (-\frac {c x}{a}-\frac {i \sin ^{-1}(\beta z)^{-k} \left (\left (-i \sin ^{-1}(\beta z)\right )^k \text {Gamma}\left (1-k,-i \sin ^{-1}(\beta z)\right )-\left (i \sin ^{-1}(\beta z)\right )^k \text {Gamma}\left (1-k,i \sin ^{-1}(\beta z)\right )\right )}{2 \beta },\int _1^y\sin ^{-1}(\lambda K[1])^{-n}dK[1]-\frac {b x}{a}\right )\right \}\right \}\]

Maple ✓

restart; 
pde :=  a*diff(w(x,y,z),x)+ b*arcsin(lambda*y)^n*diff(w(x,y,z),y)+c*arcsin(beta*z)^k*diff(w(x,y,z),z)= 0; 
cpu_time := timelimit(60*10,CodeTools[Usage](assign('sol',pdsolve(pde,w(x,y,z))),output='realtime'));
 

\[w \left ( x,y,z \right ) ={\it \_F1} \left ( -{\frac {{2}^{n}a{2}^{-n} \left ( \arcsin \left ( y\lambda \right ) \LommelS 1 \left ( -n+3/2,1/2,\arcsin \left ( y\lambda \right ) \right ) - \left ( \arcsin \left ( y\lambda \right ) \right ) ^{-n} \left ( \arcsin \left ( y\lambda \right ) \right ) ^{3/2} \right ) \sqrt {-{y}^{2}{\lambda }^{2}+1}+\lambda \, \left ( -ay{2}^{n}{2}^{-n}\LommelS 1 \left ( -n+3/2,1/2,\arcsin \left ( y\lambda \right ) \right ) +a\arcsin \left ( y\lambda \right ) \LommelS 1 \left ( -n+1/2,3/2,\arcsin \left ( y\lambda \right ) \right ) ny{2}^{n}{2}^{-n}+ \left ( ay{2}^{-n} \left ( {2}^{n}-2\,{2}^{n-1} \right ) \left ( \arcsin \left ( y\lambda \right ) \right ) ^{-n}-bx \left ( n-1 \right ) \right ) \sqrt {\arcsin \left ( y\lambda \right ) } \right ) }{\sqrt {\arcsin \left ( y\lambda \right ) }b\lambda \, \left ( n-1 \right ) }},-2\,{\frac {1}{\lambda \, \left ( n-1 \right ) \left ( {y}^{2}{\lambda }^{2}-1 \right ) c\beta \, \left ( k-1 \right ) } \left ( -1/2\,{2}^{n}\lambda \,{2}^{-n}cy\beta \, \left ( k-1 \right ) \left ( -{\frac {\LommelS 1 \left ( -n+3/2,1/2,\arcsin \left ( y\lambda \right ) \right ) }{\sqrt {\arcsin \left ( y\lambda \right ) }}}+ \left ( \arcsin \left ( y\lambda \right ) \right ) ^{-n} \right ) \left ( -{y}^{2}{\lambda }^{2}+1 \right ) -1/2\,{2}^{n}{2}^{-n}\arcsin \left ( y\lambda \right ) c\beta \, \left ( y\lambda -1 \right ) \left ( y\lambda +1 \right ) \left ( k-1 \right ) \left ( -{\frac {\LommelS 1 \left ( -n+3/2,1/2,\arcsin \left ( y\lambda \right ) \right ) }{\sqrt {\arcsin \left ( y\lambda \right ) }}}+ \left ( \arcsin \left ( y\lambda \right ) \right ) ^{-n} \right ) \sqrt {-{y}^{2}{\lambda }^{2}+1}+ \left ( y\lambda +1 \right ) \left ( -1/2\,{\frac {b{2}^{-k}{2}^{k} \left ( n-1 \right ) \left ( \arcsin \left ( \beta \,z \right ) \LommelS 1 \left ( -k+3/2,1/2,\arcsin \left ( \beta \,z \right ) \right ) - \left ( \arcsin \left ( \beta \,z \right ) \right ) ^{-k} \left ( \arcsin \left ( \beta \,z \right ) \right ) ^{3/2} \right ) \sqrt {-{\beta }^{2}{z}^{2}+1}}{\sqrt {\arcsin \left ( \beta \,z \right ) }}}+\beta \, \left ( 1/2\,{\frac {b{2}^{-k}z{2}^{k} \left ( n-1 \right ) \LommelS 1 \left ( -k+3/2,1/2,\arcsin \left ( \beta \,z \right ) \right ) }{\sqrt {\arcsin \left ( \beta \,z \right ) }}}+1/2\,{2}^{n}{2}^{-n}c\sqrt {\arcsin \left ( y\lambda \right ) }ny \left ( k-1 \right ) \LommelS 1 \left ( -n+1/2,3/2,\arcsin \left ( y\lambda \right ) \right ) -1/2\,b{2}^{-k}\sqrt {\arcsin \left ( \beta \,z \right ) }kz{2}^{k} \left ( n-1 \right ) \LommelS 1 \left ( -k+1/2,3/2,\arcsin \left ( \beta \,z \right ) \right ) + \left ( \arcsin \left ( \beta \,z \right ) \right ) ^{-k} \left ( n-1 \right ) {2}^{-k}bz \left ( {2}^{k-1}-1/2\,{2}^{k} \right ) -{2}^{-n}{2}^{n-1}c \left ( \arcsin \left ( y\lambda \right ) \right ) ^{-n}y \left ( k-1 \right ) \right ) \right ) \lambda \, \left ( y\lambda -1 \right ) \right ) } \right ) \]