To calculate the error in back propagation you would use, (target out  act. out) * act.out * (1  act.out)
So what does, act.out * (1  act.out) solve?
Wouldn't, [target out  act. out] be the amount the output is incorrect by?
To calculate the error in back propagation you would use, (target out  act. out) * act.out * (1  act.out) So what does, act.out * (1  act.out) solve? Wouldn't, [target out  act. out] be the amount the output is incorrect by? 


It solves the derivative of the neuron output with respect to the current activation level. If you are using logistic sigmoid for the activation function, then if In the backpropagation equation, to determine by how much you should change a weight, you need an estimate of how sensitive the output is to a change in activation. That is what this term provides. 

