The nature of a graph refers to its characteristics and properties, which can include aspects such as continuity, symmetry, and the presence of asymptotes or intercepts. It also encompasses the graph's shape and behavior, such as whether it is linear, quadratic, exponential, or periodic. Understanding the nature of a graph helps in analyzing its trends and making predictions based on the data it represents.
The answer depends on the nature of the numbers in the table and what you wish to show in the graph. You can graph virtually any set of numbers. For rather an unusual use of graphics see the attached link:
The answer depends on the nature of the variables: for a start, whether they are qualitative or quantitative.
the body is in accelerated motion.
Any kind of graph can be used. It depends on the nature of the data, the type of comparison and the preferences of the person writing up the results.
The nature of a graph refers to its characteristics and properties, which can include aspects such as continuity, symmetry, and the presence of asymptotes or intercepts. It also encompasses the graph's shape and behavior, such as whether it is linear, quadratic, exponential, or periodic. Understanding the nature of a graph helps in analyzing its trends and making predictions based on the data it represents.
the distance time graph will show a linear or a straight line
The answer depends on the nature of the numbers in the table and what you wish to show in the graph. You can graph virtually any set of numbers. For rather an unusual use of graphics see the attached link:
For uniform motion, the position-time graph will be a straight line with a constant slope, indicating a constant velocity.
The answer depends on the nature of the variables: for a start, whether they are qualitative or quantitative.
Every Chansey is different. If you check its nature, thant ype it online and a graph may come up and look for whatever nature it is.
constant positive acceleration
the body is in accelerated motion.
The answer depends on the nature of the graph. If it is linear it will simply change the slope. If it is non-linear, it will change the shape. It also depends on what changes are made to the scales on the axes.
Any kind of graph can be used. It depends on the nature of the data, the type of comparison and the preferences of the person writing up the results.
To find the time taken to acquire a certain velocity in an acceleration-time graph, locate the point on the graph where the velocity reaches the desired value. Then, find the corresponding time on the horizontal axis at that point. This time value represents the time taken to acquire the initial velocity.
To accurately describe the discriminant for the graph, one would need to examine the nature of the roots of the quadratic equation represented by the graph. If the graph intersects the x-axis at two distinct points, the discriminant is positive. If it touches the x-axis at one point, the discriminant is zero. If the graph does not intersect the x-axis at all, the discriminant is negative.