A horizontal line.
There is only one possible shape.
The graph of a quadratic equation has the shape of a parabola.
It takes the shape of a line.
yes, if you have a graph with a line....take a look at the picture I linked. ok so the distance covered is simply the area of the graph. do you know how to calculate the area of unusual shapes like this one?? if you don't, you simply divide the shape into 3 parts: two triangles and the square. the find the area of each one and add them together. the area is measured in metres.
When a graph shows a trend that is noticeable. Such as a line or a curve in a certain shape.
There is only one possible shape.
If the Object is falling at a constant velocity the shape of the graph would be linear. If the object is falling at a changing velocity (Accelerating) the shape of the graph would be exponential- "J' Shape.
A straight line with a constant slope
the displacement mean the shortest distance between two points. the shape of displacement where the objects move and its also help us to tell the shape of displacement with the use of graph.
It is the distance that covers round a shape or object.
The graph is a straight line whose slope is the acceleration of gravity.
yes it is the distance around an object.
It means moving an object or a line on a graph to a different place, without twisting or turning it.
The area between the graph and the x-axis is the distance moved. If the velocity is constant the v vs t graph is a straight horizontal line. The shape of the area under the graph is a rectangle. For constant velocity, distance = V * time. Time is the x-axis and velocity is the y-axis. If the object is accelerating, the velocity is increasing at a constant rate. The graph is a line whose slope equals the acceleration. The shape of the graph is a triangle. The area under the graph is ½ * base * height. The base is time, and the height is the velocity. If the initial velocity is 0, the average velocity is final velocity ÷ 2. Distance = average velocity * time. Distance = (final velocity ÷ 2) * time, time is on the x-axis, and velocity is on the y-axis. (final velocity ÷ 2) * time = ½ time * final velocity ...½ base * height = ½ time * final velocity Area under graph = distance moved Most velocity graphs are horizontal lines or sloping lines.
The distance of object and the distance of image.
no If the shape of the object is not fixed, it would be possible to alter the shape of the perimeter, but not the length, i.e., the distance around the object being enclosed.
The graph of a quadratic equation has the shape of a parabola.