This thesis is concerned with exponential stability analysis and design of linear systems represented by the second-order vector differential equations with singular leading coefficient matrices. A new sufficient condition for exponential stability is derived. By illustrative examples, it is shown that the proposed criterion is less conservative as compared with some results in the literature. Then, we use the developed criterion and an optimization method to design controllers to make the considered systems stable. In control theorems, the gain margin and the phase margin are important robustness specifications for the design of practical control systems. This thesis also considers the design of time-invariant systems with the specified phase margin. The Gershgorin theorem is used to design a proportional-derivative (PD) controller, or a proportional-integral (PI) controller, or a phase lead compensator, or a lag compensator to achieve the required phase margin. Examples are also given.