Two commodities $Q_1$ and $Q_2$ are said to be substitute commodities if an increase in the demand of either results in a decrease in the demand of the other.
Let $D_1(p_1,p_2)$ and $D_2(p_1,p_2)$ be the demand functions for $Q_1$ and $Q_2$ respectively, where , $p_1$ and $p_2$ are the respective unit prices for the commodities.
We need to check the signs of $\dfrac{\partial D_1}{\partial p_1}$ and $\dfrac{\partial D_2}{\partial p_2}$.
My thought on the problem :
$\dfrac{\partial D_1}{\partial p_1}$ tells us the change in demand($D_1$) with respect to its price($p_1$).
1). With the decrease in prices , the demand would eventually grow up , thus , $\dfrac{\partial D_1}{\partial p_1}>0$ ,
2). But , with the increase in prices , the demand($D_1$) would decrease and demand($D_2$) would increase , as given in the problem , thus $\dfrac{\partial D_1}{\partial p_1}<0$ and $\dfrac{\partial D_2}{\partial p_1}>0$
Similar argument can be given for $D_2$.
But the solution says , $\dfrac{\partial D_1}{\partial p_1}<0$.
How can we conclude that ? We're not supposed to consider the first case ? Could anyone tell , what am I doing wrong ?
According to the Law of Demand, if the price of a commodity goes up then the quantity demanded will go down.See Law of Demand Definition here.
If the two goods are substitutes then an increase in $p_{1}$ will decrease $D_{1}$, so $$\frac{\partial D_{1}}{\partial p_{1}}<0.$$ On the other hand, an increase in $p_{1}$ will increase $D_{2}$, so $$\frac{\partial D_{2}}{\partial p_{1}}>0.$$
Similarly, an increase in $p_{2}$ will decrease $D_{2}$, so $$\frac{\partial D_{2}}{\partial p_{2}}<0.$$ On the other hand, an increase in $p_{2}$ will increase $D_{1}$, s0 $$\frac{\partial D_{1}}{\partial p_{2}}>0.$$