It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
Gottfried Wilhelm Leibniz.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
Oh, honey, let me break it down for you. The Stepped Reckoner, designed by Gottfried Wilhelm Leibniz, could handle multiplication and division, while Pascal's machine could only do addition and subtraction. Basically, the Stepped Reckoner was like the cool kid on the block with more math skills than Pascal's machine could ever dream of.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
The device tended to jam and malfunction because the parts of the machine were unreliable.
The device tended to jam and malfunction because the parts of the machine were unreliable.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
It did multiplication by repeated addition and shifting whereas Pascal's couldn't.
hk
calculus and the stepped reckoner