Purpose: This study examined whether serial movement programming was affected by the subsequent movement difficulty, and whether there exhibited age-related differences. Method: Twelve children (6.8 ± 0.1 yrs.) and twelve adults (25.5 ± 1.9 yrs.) served as participants and were asked to press two targets sequentially. The first target size was constant, whereas there were small or large size conditions for the second targets. Participants had to perform as quickly and accurately as possible. The reaction time, movement time, and kinematic characteristics were recorded by movement timing equipment and six degrees of freedom Polhemus Liberty system. Results: The 2 (age) × 2 (second target size) mixed design 2-way ANOVA revealed that (1) when difficulty of the second movement increased, reaction time prolonged significantly, indicating the time for information processing was longer. The first movement time and percentage of deceleration time increased significantly, whereas the average velocity and peak velocity were significant lower, which indicated the first movement was slower and deceleration phase was longer; (2) the significant age × second target size interaction for the first movement terminal velocity suggested that, compared with children, adults tended to program the two movement segments as a whole; and (3) the age × second target size interaction for the first/second movement time ratio was significant. When difficulty of the second movement was changed from low to high, children transformed the long-short serial movement time pattern into a short-long one, which was different from that of adults. Conclusions: (1) programming of serial movement in children and adults was affected by the subsequent movement difficulty; and (2) children may possess the capability to take subsequent movement demand into account when programming the response, however, the motor programming characteristics of children still differed from that of adults.