# Differentiating Exponential Functions with Calculators

Navigating the intricacies of exponential functions, particularly in the realm of calculus, demands a nuanced understanding and effective utilization of calculators. As mathematical landscapes evolve, the ability to differentiate exponential functions accurately becomes paramount. This task, often perceived as challenging, finds a practical solution through the strategic use of calculators. In this exploration, we delve into the techniques and nuances of differentiating exponential functions with calculators, unlocking a streamlined approach to grasp the essence of these mathematical constructs.

Questions

- How do you differentiate #y = lnx^2#?
- How do you differentiate # [(e^x)(lnx)]/x #?
- How do you differentiate #ln((x+1)/(x-1)) #?
- How do you find the derivative of #ln(1+1/x) / (1/x)#?
- How do you differentiate #ln(1/x)#?
- How do you differentiate #f(x) = x/(1-ln(x-1))#?
- How do you find the derivative of # ln -x#?
- How do you differentiate #(1+x)^(1/x)#?
- How do you find the derivative of #ln(x^2-4)#?
- How do you differentiate #(lnx)^(x)#?
- What is the derivative of #e^(-x)#?
- How do you use a calculator to find the derivative of #f(x)=e^sqrt(x)# ?
- How do you find the derivative of #x ln (x) - x#?
- How do you find the derivative of #ln (x^8)/ x^2#?
- How do you find the derivative of #ln((x^2)(e^x))#?
- How do you use a calculator to find the derivative of #f(x)=e^(x^2)# ?
- How do you find the derivative of #-ln(x-(x^2+1)^(1/2))#?
- How do you use a calculator to find the derivative of #f(x)=e^(1-3x)# ?
- How do you differentiate #e^(lnx) #?
- How do you find the derivative of #f(x) = x/(1-ln(x-1))#?