Both his speed (3m/s) and direction (on a straight road) are constant, meaning that his velocity is also constant. On a velocity-time graph, this would be represented by a straight, horizontal line at x= 3 (m/s). Acceleration is the change of velocity over time, and since there is no change in velocity, the answer is just 0 m/s^2.
Both his speed (3m/s) and direction (on a straight road) are constant, meaning that his velocity is also constant. On a velocity-time graph, this would be represented by a straight, horizontal line at x= 3 (m/s). Acceleration is the change of velocity over time, and since there is no change in velocity, the answer is just 0 m/s^2.
Explanation:
HOPE IT HELPS YOU. MARK AS BRAINLIEST IF YOU LIKE IT.☺️❤️
Answers & Comments
Answer:
0m/s^2
Both his speed (3m/s) and direction (on a straight road) are constant, meaning that his velocity is also constant. On a velocity-time graph, this would be represented by a straight, horizontal line at x= 3 (m/s). Acceleration is the change of velocity over time, and since there is no change in velocity, the answer is just 0 m/s^2.
Answer:
Both his speed (3m/s) and direction (on a straight road) are constant, meaning that his velocity is also constant. On a velocity-time graph, this would be represented by a straight, horizontal line at x= 3 (m/s). Acceleration is the change of velocity over time, and since there is no change in velocity, the answer is just 0 m/s^2.
Explanation:
HOPE IT HELPS YOU. MARK AS BRAINLIEST IF YOU LIKE IT.☺️❤️