Users' Guide User guide
48 Calculator
• The position versus time graph of an object in free fall (below right) exhibits
a typical quadratic relationship. The object was dropped from a height of
0.79 m, with the release occurring 2.2 s after the start of data collection. The
graph can be linearized (as shown below right) by replacing Time on the hor-
izontal axis with the calculation (
-2.2) . The slope of the best-fit
line is , where a is the acceleration of the object.
• Voltage versus time graph for a discharging capacitor is shown below on the
left. The graph the natural log of voltage versus time is a linear (below right).
The slope of the line is , where C is the capacitance and R is the
resistance through which the capacitor discharges.
Calculator Function Keys
F1 Functions
Press (or click Functions) repeatedly to access the three Functions menus.
These menus contain the following items.
• Functions: sin, cos, tan, arcsin, arccos, arctan, ^2, log, ln, sqrt, 10^, e^
• Operators: ^ (the exponent operator)
• Constants: π
• Commonly used symbols: x, y, z, m, a, b, c, d, α, ω λ, θ
• Sample expressions: y = 2x +3, y = x^2, y = sin(x), y = e^x sin(x)
• Parentheses: a pair of parentheses and a single right parenthesis
• Special Functions: limit, mod, abs, random
• Output-control Functions: outstate, outswitch, outfreq, outvolume
• Logic Operators and Functions: <, >, inrange, and, or, not
a 2⁄
Linearized free-fall dataPosition vs. Time of an object in
free fall
1 RC⁄–
Linearized data for a discharging
capacitor
Voltage versus Time data for a
capacitor
The first and second Functions
menus
F1