Answer:
1c; 2a; 3d; 4b; 5e
Step-by-step explanation:
Empirical evidence: data or facts that can be observed
Independent variable: the experimental factor that is changed by the scientist
Dependent variable: the variable that changes in response to experimentation
Control: the quantity in an experiment that remains unchanged
Hypothesis: a proposed explanation for a scientific problem
A scientist conducts experiments to test an hypothesis. During the experiment, a single independent variable is changed under controlled conditions and the effects of those changes are observed and measured on the dependent variable. All other possible variables in a given experiment need to be maintained constant and are called controls. The obtained results are the empirical evidence.
For example, if you wanted to test whether watering frequency affects plant growth, you could have many plants of the same species and water each of them with different frequency (independent variable). You could then consider the length of the stem of each plant as a measure for growth (dependent variable). All other variables (nutrient content, temperature, light exposure, etc.) need to be constant (control). If you observed that the plants that were watered more frequently had as a result longer stems (empirical evidence) you could hypothesize an explanation (for example, higher water availability increases nutrient uptake by plants, allowing them to grow more) and then conduct further experiments to test it.