Integral equation symbol used with the EQN_Integral equation function.
-------------------------------------------------- 0000000 A 000000011111111 | 0000000 111111111111 | 0000000 11111111111111 | 0000000 11111111111111 | 0000000 111111111111 | 000000000 11111111 | 000000000 | 0000000000 | 000000000 | 0000000000 | 0000000000 | 00000000000 | 00000000000 | 000000000000 | 000000000000 lineWidth | height ------->000000000000<---------- | 000000000000 | 000000000000 | 000000000000 | 00000000000 | 00000000000 | 0000000000 | 0000000000 | Serif 000000000 | \ 000000000 | \ 0000000000 | 11111111 000000000 | 111111111111 00000000 | 11111111111111 0000000 | 11111111111111 0000000 | 111111111111 0000000 V 111111110000000 ------- 0000000
// Define in elementfigure.add({ make: 'equation', elements: { int: { symbol: 'int' }, }, forms: { form1: { int: ['int', 'x dx', 'a', 'b'] }, },}); Copy
// Define in elementfigure.add({ make: 'equation', elements: { int: { symbol: 'int' }, }, forms: { form1: { int: ['int', 'x dx', 'a', 'b'] }, },});
// Triple Integralfigure.add({ make: 'equation', elements: { int: { symbol: 'int', num: 3 }, }, forms: { form1: { int: ['int', 'dx dy dz'] }, },}); Copy
// Triple Integralfigure.add({ make: 'equation', elements: { int: { symbol: 'int', num: 3 }, }, forms: { form1: { int: ['int', 'dx dy dz'] }, },});
// Line Integralfigure.add({ make: 'equation', elements: { int: { symbol: 'int', type: 'line' }, }, forms: { form1: { int: ['int', 'r dr'] }, },}); Copy
// Line Integralfigure.add({ make: 'equation', elements: { int: { symbol: 'int', type: 'line' }, }, forms: { form1: { int: ['int', 'r dr'] }, },});
// Define inline simple one usefigure.add({ make: 'equation', forms: { form1: { int: ['int', 'x dx', 'a', 'b'] }, },}); Copy
// Define inline simple one usefigure.add({ make: 'equation', forms: { form1: { int: ['int', 'x dx', 'a', 'b'] }, },});
// Define inline with reuseconst eqn = figure.add({ make: 'equation', forms: { form1: { int: ['i1_int', 'x dx', 'a', 'b'] }, form2: { int: ['i1', 'y dy', 'a', 'b'] }, },});eqn.animations.new() .goToForm({ delay: 1, target: 'form2', animate: 'move' }) .start(); Copy
// Define inline with reuseconst eqn = figure.add({ make: 'equation', forms: { form1: { int: ['i1_int', 'x dx', 'a', 'b'] }, form2: { int: ['i1', 'y dy', 'a', 'b'] }, },});eqn.animations.new() .goToForm({ delay: 1, target: 'form2', animate: 'move' }) .start();
// Define inline with customizationfigure.add({ make: 'equation', forms: { form1: { int: [{ int: { serif: false } }, 'x dx', 'a', 'b'] }, },});@interface Copy
// Define inline with customizationfigure.add({ make: 'equation', forms: { form1: { int: [{ int: { serif: false } }, 'x dx', 'a', 'b'] }, },});@interface
Integral equation symbol used with the EQN_Integral equation function.
-------------------------------------------------- 0000000 A 000000011111111 | 0000000 111111111111 | 0000000 11111111111111 | 0000000 11111111111111 | 0000000 111111111111 | 000000000 11111111 | 000000000 | 0000000000 | 000000000 | 0000000000 | 0000000000 | 00000000000 | 00000000000 | 000000000000 | 000000000000 lineWidth | height ------->000000000000<---------- | 000000000000 | 000000000000 | 000000000000 | 00000000000 | 00000000000 | 0000000000 | 0000000000 | Serif 000000000 | \ 000000000 | \ 0000000000 | 11111111 000000000 | 111111111111 00000000 | 11111111111111 0000000 | 11111111111111 0000000 | 111111111111 0000000 V 111111110000000 ------- 0000000Example
Example
Example
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Example