P.11 Describing Data
Purpose of Data Description
- Goal: To clearly and accurately communicate trends, patterns, and details observed in the results, often best done using a graph.
- Key Focus: Provide a detailed overview of the relationship between the independent and dependent variables, as shown on the graph, and support with specific data points.
Steps for Describing Data from a Graph
- Identify the Overall Trend:
- Begin by describing the general relationship between the independent variable (x-axis) and the dependent variable (y-axis).
- Example: “As rennin concentration increases, the time to reach the end-point decreases, indicating that reaction rate increases with higher rennin concentration.”
- Describe Gradient Changes:
- Note any changes in gradient (slope) on the graph.
- Example: “The gradient is steep at lower rennin concentrations, indicating a rapid increase in reaction rate, and becomes gradually less steep as concentration rises, showing a diminishing effect on reaction rate.”
- Provide Specific Data Points:
- Quote key coordinates or data points directly from the graph, especially at points where there are notable changes in the relationship.
- Example: “At 0.2% rennin, the mean time to end-point is 68.0 s. At 1% rennin, the mean time decreases to 12.9 s.”
- Assess Proportionality:
- Identify whether the relationship is proportional (linear) or non-linear (curved line).
- Example: “The graph forms a curve with a decreasing gradient, indicating that the relationship between rennin concentration and reaction rate is not proportional.”
Important Considerations When Describing Data
- Avoid Time-Based Language:
- Use terms that accurately describe the relationship on the graph. If the x-axis is not time, avoid phrases implying time such as “at first,” “quickly,” or “slower.”
- Correct Approach: Instead of “the gradient is steep at first,” say “the gradient is steep at lower concentrations and becomes shallower at higher concentrations.”
- Quote Data with Precision:
- Provide exact x and y values for key points to support your description.
- Quote values that help to highlight patterns, changes in gradient, or inflection points.
Example of Data Description
Using Figure P1.6 for reference:
“When no rennin was present, no reaction occurred, as indicated by an infinite time to reach the end-point (time = ∞). As rennin concentration increased, the mean time to reach the end-point decreased. For instance, at 0.2% rennin, the mean time was 68.0 seconds, whereas at 1% rennin, it was 12.9 seconds. The curve has a decreasing gradient, steepest at lower concentrations and flattening at higher concentrations. This non-linear trend shows that increases in rennin concentration have a greater effect on reaction rate at lower concentrations than at higher ones.”
Key Terms
| Term | Definition |
|---|---|
| Gradient | The slope of the line on the graph, indicating the rate of change in the dependent variable relative to the independent variable. |
| Proportional Relationship | A linear relationship where changes in one variable correspond directly with changes in the other. |
| Non-Linear Relationship | A curved line, indicating a diminishing or increasing rate of change between variables. |
Tips for Effective Data Description
- Use Accurate Vocabulary: Choose language that accurately describes the data on the graph without suggesting unintended meanings.
- Highlight Key Trends: Focus on major trends and patterns rather than minor fluctuations.
- Support with Data Points: Always back up your description with specific values or coordinates from the graph to provide evidence.