To determine the amount of pressure represented by each mark on the Y-axis of a pressure graph, you need to look at the scale indicated on the graph. Each mark typically corresponds to a specific pressure unit, such as pascals, atmospheres, or millibars, and the value for each increment can often be found in the graph's legend or axis labeling. If no specific units are provided, it may require further context from the accompanying text or data source to interpret the increments accurately.
The amount of temperature represented by each mark on the y-axis of a temperature graph typically depends on the scale chosen for the graph. Common scales include Celsius or Fahrenheit, with each mark often representing a fixed interval, such as 1°C or 2°F. To determine the exact value per mark, you would need to check the labels or legend associated with the graph.
The y-axis.
It can be casually called the x intercept, but it/they is/are the root(s) of the function represented by the graph
something which decreases over time e.g. speed of a car when the brakes are applied. Time on the x-axis and speed on the y-axis of the graph
The independent variable on a bar graph is the variable that is manipulated or categorized to observe its effect on the dependent variable. It is typically represented on the x-axis (horizontal axis) of the graph. For example, in a bar graph showing the sales of different products, the product categories would be the independent variable.
Time is plotted on the horizontal axis.
The amount of temperature represented by each mark on the y-axis of a temperature graph typically depends on the scale chosen for the graph. Common scales include Celsius or Fahrenheit, with each mark often representing a fixed interval, such as 1°C or 2°F. To determine the exact value per mark, you would need to check the labels or legend associated with the graph.
Distance is usually represented on the y-axis of a distance-time graph. The x-axis typically represents time.
A graph is typically represented in terms of a y-axis (vertical), x-axis (horizontal) and sometimes a z-axis as well (at right angles to the y & x) if it's a 3-D graph.
The y-axis.
It can be casually called the x intercept, but it/they is/are the root(s) of the function represented by the graph
something which decreases over time e.g. speed of a car when the brakes are applied. Time on the x-axis and speed on the y-axis of the graph
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 graph of Charles's Law would show a direct relationship between the volume of a gas and its temperature at constant pressure. As temperature increases, the volume of the gas also increases proportionally. This relationship is represented by a straight line passing through the origin on a graph where the x-axis represents temperature and the y-axis represents volume.
A graph drawing in which each edge is represented by a polyline, each segment of which is parallel to a coordinate axis.
It can tell you how the dependent variable (usually represented on the y-axis) changes in relation (and hence the rate of change) to the independent varaible (usually represented on the x-axis).
The y axis is going up on the graph and the x axis is going sideways on the graph