let X1, X2 be non empty set ;
let x1 be Element of X1;
let x2 be Element of X2;
:: original: [
redefine func [x1,x2] -> Element of [:X1,X2:];
coherence
[x1,x2] is Element of [:X1,X2:] by ZFMISC_1:106;

let X1, X2 be non empty set ;
let x be Element of [:X1,X2:];
:: original: `1
redefine func x `1 -> Element of X1;
coherence
x `1 is Element of X1 by MCART_1:10;
:: original: `2
redefine func x `2 -> Element of X2;
coherence
x `2 is Element of X2 by MCART_1:10;

let X1, X2, X3 be non empty set ;
let x1 be Element of X1;
let x2 be Element of X2;
let x3 be Element of X3;
:: original: [
redefine func [x1,x2,x3] -> Element of [:X1,X2,X3:];
coherence
[x1,x2,x3] is Element of [:X1,X2,X3:] by MCART_1:73;

let X1, X2, X3, X4 be non empty set ;
let x1 be Element of X1;
let x2 be Element of X2;
let x3 be Element of X3;
let x4 be Element of X4;
:: original: [
redefine func [x1,x2,x3,x4] -> Element of [:X1,X2,X3,X4:];
coherence
[x1,x2,x3,x4] is Element of [:X1,X2,X3,X4:] by MCART_1:84;

for X1 being non empty set holds { x1 where x1 is Element of X1 : P₁[x1] } is Subset of X1

for X1, X2 being non empty set holds { [x1,x2] where x1 is Element of X1, x2 is Element of X2 : P₁[x1,x2] } is Subset of [:X1,X2:]

for X1, X2, X3 being non empty set holds { [x1,x2,x3] where x1 is Element of X1, x2 is Element of X2, x3 is Element of X3 : P₁[x1,x2,x3] } is Subset of [:X1,X2,X3:]

for X1, X2, X3, X4 being non empty set holds { [x1,x2,x3,x4] where x1 is Element of X1, x2 is Element of X2, x3 is Element of X3, x4 is Element of X4 : P₁[x1,x2,x3,x4] } is Subset of [:X1,X2,X3,X4:]

for X1 being non empty set st ( for x1 being Element of X1 st P₁[x1] holds
P₂[x1] ) holds
{ y1 where y1 is Element of X1 : P₁[y1] } c= { z1 where z1 is Element of X1 : P₂[z1] }

for X1 being non empty set st ( for x1 being Element of X1 holds
( P₁[x1] iff P₂[x1] ) ) holds
{ y1 where y1 is Element of X1 : P₁[y1] } = { z1 where z1 is Element of X1 : P₂[z1] }

{ d where d is Element of F₁() : P₁[d] } is Subset of F₁()

let D be non empty set ;
let x1 be Element of D;
:: original: {
redefine func {x1} -> Subset of D;
coherence
{x1} is Subset of D by SUBSET_1:55;
let x2 be Element of D;
:: original: {
redefine func {x1,x2} -> Subset of D;
coherence
{x1,x2} is Subset of D by SUBSET_1:56;
let x3 be Element of D;
:: original: {
redefine func {x1,x2,x3} -> Subset of D;
coherence
{x1,x2,x3} is Subset of D by SUBSET_1:57;
let x4 be Element of D;
:: original: {
redefine func {x1,x2,x3,x4} -> Subset of D;
coherence
{x1,x2,x3,x4} is Subset of D by SUBSET_1:58;
let x5 be Element of D;
:: original: {
redefine func {x1,x2,x3,x4,x5} -> Subset of D;
coherence
{x1,x2,x3,x4,x5} is Subset of D by SUBSET_1:59;
let x6 be Element of D;
:: original: {
redefine func {x1,x2,x3,x4,x5,x6} -> Subset of D;
coherence
{x1,x2,x3,x4,x5,x6} is Subset of D by SUBSET_1:60;
let x7 be Element of D;
:: original: {
redefine func {x1,x2,x3,x4,x5,x6,x7} -> Subset of D;
coherence
{x1,x2,x3,x4,x5,x6,x7} is Subset of D by SUBSET_1:61;
let x8 be Element of D;
:: original: {
redefine func {x1,x2,x3,x4,x5,x6,x7,x8} -> Subset of D;
coherence
{x1,x2,x3,x4,x5,x6,x7,x8} is Subset of D by SUBSET_1:62;

{ F₃(x) where x is Element of F₁() : P₁[x] } is Subset of F₂()

{ F₄(x,y) where x is Element of F₁(), y is Element of F₂() : P₁[x,y] } is Subset of F₃()

let D1, D2, D3 be non empty set ;
let x be Element of [:[:D1,D2:],D3:];
:: original: `11
redefine func x `11 -> Element of D1;
coherence
x `11 is Element of D1 :: original: `12
redefine func x `12 -> Element of D2;
coherence
x `12 is Element of D2

let D1, D2, D3 be non empty set ;
let x be Element of [:D1,[:D2,D3:]:];
:: original: `21
redefine func x `21 -> Element of D2;
coherence
x `21 is Element of D2 :: original: `22
redefine func x `22 -> Element of D3;
coherence
x `22 is Element of D3

{ a where a is Element of F₁() : ( P₁[a] & P₂[a] ) } = { a1 where a1 is Element of F₁() : P₁[a1] } /\ { a2 where a2 is Element of F₁() : P₂[a2] }