infinitive
By ordering the digits, you can make 4*3*2*1 = 24 different numbers. By using mathematical operations that are already defined (addition, power, trigonometric functions etc), you can make many more - at least millions. If you then include functions that you define, the answer is infinitely many.
89,999 different numbers i guess
4
Three different ways.
Using all 13 squares, and not counting different orientations, only one.
If the only operation is addition, then 3.
Infinitely many. Assuming you want the addition of only two numbers: Choose ANY number for the first number, then calculate 38 minus that number, to obtain the second number.
By ordering the digits, you can make 4*3*2*1 = 24 different numbers. By using mathematical operations that are already defined (addition, power, trigonometric functions etc), you can make many more - at least millions. If you then include functions that you define, the answer is infinitely many.
89,999 different numbers i guess
AactactionaimammoammunitionanantantiatatomauctioncamcancantcatcautioncoincomacommacommitcommoncommunionconcotcutIiconI'minintoioniotaitmamanmatmintmommoonmootmotionmountmunitionnationnitnoonnotnotionnounoatomitononionontotantintinttontonicunctionunionunitunto
13
4
Assuming that the only permitted operation is addition, then there are 4 combinations.
The company KEMET makes many different products. They make products for 8 different industries. In addition they also make battery production equipment, EMI filters, and Transformers.
Five different ways.
Three different ways.
3