In laboratory experiments, graph are employed to determine how one measured variable depends on another. These graphs generally fall into three categories: linear, semilog (logarithmic versus linear), and log-log. Which type of graph listed in the third column below would NOT be the best for plotting data to test the relationship given in the first and second columns?
| Relation | Variables Plotted | Type of graph | ||||
| A. | dN/dt ∝ e−2t | Activity vs time for a radioactive isotope | Semilog | |||
| B. | eVs = hf − W | Stopping potential vs frequency for the photoelectric effect | Linear | |||
| C. | s ∝ t2 | Distance vs time for an object undergoing constant acceleration | Log-log | |||
| D. | Vout/Vin ∝ 1/ω | Gain vs frequency for a low-pass filter | Linear | |||
| E. | P ∝ T4 | Power radiated vs temperature for blackbody radiation | Log-log |
(GR9677 #27)
(A) dN/dt ∝ e−2t
log [dN/dt] ∝ log e−2t
log [dN/dt] ∝ −2t
Activity vs time graph has a semilog plot.
(B) Vs ∝ f
Stopping potential vs frequency graph has a linear plot.
(C) s ∝ t2
log s ∝ 2 log t
Distance vs time graph has a log-log plot.
(D) Vout/Vin ∝ 1/ω
Vout/Vin ∝ ω−1
log [Vout/Vin] ∝ − log ω
Gain vs frequency graph has a log-log plot, NOT linear.
(E) P ∝ T4
log P ∝ 4 log T
Power vs temperature graph has a log-log plot.
Answer: D
Notes:
A semilogarithmic graph has one axis in logarithmic scale and the other in linear scale.
A log-log graphs has both axes in logarithmic scale.
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