A change in supply is represented on a graph by a shift of the supply curve to the left or right. If supply increases, the curve shifts to the right, indicating that producers are willing to supply more at each price level. Conversely, a decrease in supply shifts the curve to the left, showing that less is available at each price. This shift affects the equilibrium price and quantity in the market.
It depends on what variable is represented by the graph.
In a graph, the rise of a line usually represents an increase of some quantity. What that quantity is must be read off the graph's axes.
there is no graph... but most chance it's all real numbers
It tells you that the speed of the object is not changing. The speed is represented by the slope in a distance vs. time graph, if slope doesn't change, speed doesn't.
The slope. Or the gradient, on a straight line graph, it is represented by m in the equation y=mx + c. It can also be calculated by the rise (change in y) ÷ run (change in x)
It depends on what variable is represented by the graph.
No, the slope of a speed-versus-time graph represents the rate of change of speed, not acceleration. Acceleration is represented by the slope of a velocity-versus-time graph.
In a graph, the rise of a line usually represents an increase of some quantity. What that quantity is must be read off the graph's axes.
A graph that has its data represented in little symbolic pictures.
Speed is represented by the slope of a distance-time graph, where steeper slopes indicate faster speed. Acceleration is represented by the slope of a speed-time graph, where a steeper slope indicates a greater acceleration.
A perfectly elastic demand is represented on the traditional supply and demand graph with a straight horizontal line. An elastic demand that is not perfect would be represented as any line with a slope between 0 and -1.
.08>0.4
The equation of invisibility!
True. Velocity is the rate of change of displacement with respect to time, which is represented by the slope of the displacement versus time graph.
which is true about the functional relationship shown in the graph
The graph of an inequality is a region, not a line.