The distance-time graph of an object at rest would be a horizontal line parallel to the time axis. Since the object is not moving, its distance from the starting point remains constant over time. Thus, the graph would show a flat line indicating no change in distance with respect to time.
The distance-time graph of an object at rest would be a horizontal line parallel to the time axis. Since the object is not moving, its distance from the starting point remains constant over time. Thus, the graph would show a flat line indicating no change in distance with respect to time.
The slope of a distance-time graph represents the object's velocity or speed. A steeper slope indicates higher velocity, while a flatter slope signifies slower velocity. Negative slopes indicate motion in the opposite direction. A zero slope indicates the object is at rest.
The slope of a distance-time graph represents the object’s velocity or speed. A steeper slope indicates higher velocity, while a flatter slope signifies slower velocity. Negative slopes indicate motion in the opposite direction. A zero slope indicates the object is at rest.
A non-uniform speed on a distance-time graph appears as a curved line rather than a straight line. The curvature indicates that the object's speed is changing over time. Steeper sections represent periods of faster motion, while flatter sections indicate slower motion or rest intervals.
A non-uniform speed on a distance-time graph appears as a curved line rather than a straight line. The curvature indicates that the object’s speed is changing over time. Steeper sections represent periods of faster motion, while flatter sections indicate slower motion or rest intervals.
A distance-time graph representing the motion of an object with uniform speed appears as a straight line sloping upwards from left to right. The slope of the line indicates the speed of the object, with a steeper slope representing a higher speed. The line extends diagonally, indicating that the objRead more
A distance-time graph representing the motion of an object with uniform speed appears as a straight line sloping upwards from left to right. The slope of the line indicates the speed of the object, with a steeper slope representing a higher speed. The line extends diagonally, indicating that the object covers an equal distance in equal intervals of time.
Line graphs assist in analyzing athletes' performance in a race by plotting their distance covered against time. Trends in the graph reveal acceleration, constant speed, or deceleration during different race segments. Comparing multiple athletes' graphs enables coaches to identify strengths, weaknesRead more
Line graphs assist in analyzing athletes’ performance in a race by plotting their distance covered against time. Trends in the graph reveal acceleration, constant speed, or deceleration during different race segments. Comparing multiple athletes’ graphs enables coaches to identify strengths, weaknesses, pacing strategies, and areas for improvement in training and technique.
How would the distance-time graph of an object at rest appear?
The distance-time graph of an object at rest would be a horizontal line parallel to the time axis. Since the object is not moving, its distance from the starting point remains constant over time. Thus, the graph would show a flat line indicating no change in distance with respect to time.
The distance-time graph of an object at rest would be a horizontal line parallel to the time axis. Since the object is not moving, its distance from the starting point remains constant over time. Thus, the graph would show a flat line indicating no change in distance with respect to time.
See lessWhat information can be gleaned from the slope of a distance-time graph?
The slope of a distance-time graph represents the object's velocity or speed. A steeper slope indicates higher velocity, while a flatter slope signifies slower velocity. Negative slopes indicate motion in the opposite direction. A zero slope indicates the object is at rest.
The slope of a distance-time graph represents the object’s velocity or speed. A steeper slope indicates higher velocity, while a flatter slope signifies slower velocity. Negative slopes indicate motion in the opposite direction. A zero slope indicates the object is at rest.
See lessHow does a non-uniform speed appear on a distance-time graph?
A non-uniform speed on a distance-time graph appears as a curved line rather than a straight line. The curvature indicates that the object's speed is changing over time. Steeper sections represent periods of faster motion, while flatter sections indicate slower motion or rest intervals.
A non-uniform speed on a distance-time graph appears as a curved line rather than a straight line. The curvature indicates that the object’s speed is changing over time. Steeper sections represent periods of faster motion, while flatter sections indicate slower motion or rest intervals.
See lessHow does a distance-time graph represent the motion of an object with uniform speed?
A distance-time graph representing the motion of an object with uniform speed appears as a straight line sloping upwards from left to right. The slope of the line indicates the speed of the object, with a steeper slope representing a higher speed. The line extends diagonally, indicating that the objRead more
A distance-time graph representing the motion of an object with uniform speed appears as a straight line sloping upwards from left to right. The slope of the line indicates the speed of the object, with a steeper slope representing a higher speed. The line extends diagonally, indicating that the object covers an equal distance in equal intervals of time.
See lessHow do line graphs assist in analyzing the performance of athletes in a race?
Line graphs assist in analyzing athletes' performance in a race by plotting their distance covered against time. Trends in the graph reveal acceleration, constant speed, or deceleration during different race segments. Comparing multiple athletes' graphs enables coaches to identify strengths, weaknesRead more
Line graphs assist in analyzing athletes’ performance in a race by plotting their distance covered against time. Trends in the graph reveal acceleration, constant speed, or deceleration during different race segments. Comparing multiple athletes’ graphs enables coaches to identify strengths, weaknesses, pacing strategies, and areas for improvement in training and technique.
See less