![Consider the production function Q = (L^{1/2} + K^{1/2}) ^2 Find out the shape of the production. | Homework.Study.com Consider the production function Q = (L^{1/2} + K^{1/2}) ^2 Find out the shape of the production. | Homework.Study.com](https://homework.study.com/cimages/multimages/16/capture_f1679668997815776866.png)
Consider the production function Q = (L^{1/2} + K^{1/2}) ^2 Find out the shape of the production. | Homework.Study.com
![Theory of Firms [1]: Production/Cost Function, MRTS, Elasticity of Substitution, CES, RTS and Homothetic Function, LR vs. SR Cost Function, Profit Function | Eric Zhi's Blog-Economistime Theory of Firms [1]: Production/Cost Function, MRTS, Elasticity of Substitution, CES, RTS and Homothetic Function, LR vs. SR Cost Function, Profit Function | Eric Zhi's Blog-Economistime](https://ericzhi.files.wordpress.com/2010/11/micro-tf1of2.jpg)
Theory of Firms [1]: Production/Cost Function, MRTS, Elasticity of Substitution, CES, RTS and Homothetic Function, LR vs. SR Cost Function, Profit Function | Eric Zhi's Blog-Economistime
![SOLVED: 1. Let P(L, K) 12L1/4K8/4 be a Cobb-Douglas production function Find the MRTS at the point (3,5) Find the total differential, dP at (81,16) if dL = 2and dK = SOLVED: 1. Let P(L, K) 12L1/4K8/4 be a Cobb-Douglas production function Find the MRTS at the point (3,5) Find the total differential, dP at (81,16) if dL = 2and dK =](https://cdn.numerade.com/ask_images/672c74b3a7e54276a9a33f698a6bd703.jpg)