Dr J Frost jfrosttiffinkingstonschuk wwwdrfrostmathscom Last modified 30 th August 2015 For details on statistical calculations press the Mode button Click a button ID: 670154
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Slide1
Navigating Your Casio Calculator
Dr J Frost (jfrost@tiffin.kingston.sch.uk)www.drfrostmaths.com
Last modified:
30
th
August 2015Slide2
For details on statistical calculations, press the ‘Mode’ button.
Click a button.Slide3
You didn’t press a button for which information is provided. Click the button below to go back.
< ReturnSlide4
Mode Menu
< Return
1
COMP
Puts the calculator in normal ‘computation’ mode.
You would need to do this if you were previously using stats/table mode and want to revert back to regular calculations.
2 STATS
> Go
3 TABLE
> Go
4 VERIF
Allows you to calculate various statistics based on a table of data, e.g. mean, variance, standard deviation, the equation of the line of best fit, strength of correlation, etc.
Allows you to generate a table of values for a given function, like the table on the right.
1
2
3
0
1
4
1
23014 Allows you to verify whether an equation or inequality is true.Slide5
Special Buttons
SHIFT
If you press a button after pressing SHIFT, it will use the operation indicated by the
gold text
above that button.
< Return
ALPHA
If you press a button after pressing ALPHA, it will use the operation or letter indicated by the
red text
above that button.
The letter
X
is particularly useful for entering a function. Click the ‘MODE’ button then ‘TABLE’ for more information.Slide6
Arrow Buttons
You can use the up and down arrow buttons to retrieve previous calculations (a bit like your internet browser’s ‘Back’ and ‘Forward buttons!)
You’ll need the left and right button for example when entering a fraction, and want to switch between numerator and denominator.
The arrow buttons are also used when navigating a table (e.g. in Statistics mode)
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On
On
Engineers are yet to discover the true nature of this button, which has eluded mankind for centuries.
B
ut some mathematicians have theorised that pressing this button turns the calculator on.
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Multi-Statements
x
3
The semi-colon allows you to write multiple different expressions, and evaluate them one at a time.
[2] [+] [3] [ALPHA] [:] [4] [x] [7]
[=]
5
[=] 28
< Return
:Slide9
The Absolute Function
Abs
The absolute/modulus function makes a negative number positive, and a positive number remains positive.
On its own it has limited use, but is useful if you want to plot a table of values, e.g. for
It’s particularly useful for C3/C4 at A Level, if you want to check your sketch for a function (involving the modulus function) is correct by generating a table of values.
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The Reciprocal Function
x
-1
From Laws of Indices, you may have learnt that
This is known as the ‘reciprocal’ of x.
[6] [x
-1
] = 1/6
[1/7] [x
-1
] = 7
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The Factorial Function
In general,
is the product of 1 to
.
gives the number of ways of arranging
objects in a line. The factorial function tends to also crop up in Calculus and Number Theory.
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x
-1
x
!Slide12
The Logarithm Function
log
Just as the ‘square root’ function is the opposite of ‘squaring’, log
2
for example is the opposite of finding 2 to the power of something.
log
2
32 = 5, because 2
5
= 32
l
og
3 81 = 4, because 34 = 81
Use the arrow keys to move between the boxes after pressing the button.When you use the second log button with no ‘base’, it uses base 10.
< Return
logSlide13
Fractions
When you have more complicated calculations to do on a calculator that involve a division, it’s ‘safer’ to use a fraction because you don’t have to worry about BIDMAS.
For example, to evaluate:
You can enter this exactly as it appears using the fraction button, using the arrow buttons to move up and down. This avoids the problem of 4.7/0.3 being evaluated first.
Using SHIFT on this button allow you to have
mixed numbers
.
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Root Functions
3
√
Use these buttons to get various roots of a number.
e.g.
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√
√
Slide15
Recurring Decimals
This button allows you to enter recurring decimals. Your calculator will convert them to fractions.
Recall that
Your calculator will convert this to
.
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Powers
x
Examples:
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Natural Logarithm
ln
This finds log
e
of a number, where e is Euler’s Constant (2.71...)
See the log button for more information.
This is hugely useful in Integration and Differentiation, which you learn about at A Level.
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Euler’s Constant
e
Euler’s Constant e is equal to 2.71828...
This first button allows you to do e to some power. Using e
1
allows you to see the value of e.
e can also be found above the [
] button by using [ALPHA].
e arises in many different places in maths, notably calculus, where
If the probability of winning the lottery is 1 in 14 million, and you buy 14 million random tickets, the probability that you don’t win the lottery at all is roughly 1 in e.
< Return
eSlide19
Degrees, Minutes, Seconds
When you have some
angle
or
time
as a decimal, press this key to convert it to degrees, minutes (a 60
th
of a degree) and seconds (a 60
th
of a minute).
< Return
or…
This makes sense as 4.75 hours is 4 hours and 45 minutes.
Fun fact:
Whereas the ‘decimal’ system is base 10 (i.e. each digit can have one of 10 values: 0 to 9), the ‘
sexagesimal
’ system is base 60. Subdivisions of hours and degrees are in
sexagesimal. Slide20
Factorise
FACT
This finds the prime factorisation of a number.
You need to enter the number first, then press =. THEN use the FACT button.
< Return
[120] [=] [FACT]
2
3
x 3 x 5Slide21
After pressing [
hyp
], use either the sin, cos or tan button (or inverse sin/
cos/tan) to get their ‘hyperbolic’ equivalents: sinh, cosh, tanh.
is the parametric form of a hyperbola with Cartesian equation
, just as
is the parametric form of a circle with equation
.
These are defined as:
These are useful as solutions to certain differential equations. For example, if you hang a rope between two points so that it forms a ‘u’ shape (known as a
caternary
), its shape can be given by
.
Hyperbolic Functions
hyp
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Trigonometric Functions
sin
Trigonometry allows you to find missing sides and angles on triangle. For right-angled triangles, sin,
cos
and tan give the ratio of different pairs of sides.
For example, to solve the following problems...
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cos
tan
s
in
-1
x
3
x = 3sin60
60
°
3
4
y
= cos
-1 (3/4) ySlide23
Brackets
(
Brackets are hugely handy in ensuring operations in your expression are evaluated in a certain order. Recall that in ‘BIDMAS’, ‘Brackets’ comes first.
< Return
)
3
(because the x is done first)
4
(using the brackets ensures + is done first)
Slide24
Storing values in variables
STO
In algebra we use variables to represent values. We can use the letters
A
,
B
,
C
,
D
,
E
,
F,
X, Y on the calculator for this purpose.
< Return
Store store 3 + 5 in memory as ‘A’:(Note, don’t press the ALPHA button after pressing STO
)[3] [+] [5] [STO] [A]To evaluate 10A:[10] [x] [A] [=]Slide25
Engineering Notation
ENG
Engineering notation is similar to standard form, except the power of 10 can only be a multiple of 3.
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Slide26
Percentages
%
The % button is of fairly limited usefulness. It converts a percentage into its equivalent decimal (by dividing by 100).
[90] [x] [40] [%] = 36
(this found 40% of 90)
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Comma
,
The comma is used for used in generating random integers, and converting between rectangular and polar coordinates.
Click the RANDINT, REC or POL buttons for more information.
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Converting between decimal/surd/fraction
This very useful button converts your number between different forms. S stands for ‘Surd’ and D for ‘Decimal’.
The button also converts expressions involving fractions and constants (e.g.
) into decimal form, and back again.
[
√
] [8] [
]
[
]
8.88576...
[4] [
] [9]
[
] 0.4444...
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Improper Fractions and Mixed Numbers
This allows you to convert between improper fractions and mixed numbers.
[24] [
] [16]
[
]
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Independent Memory
M+
The independent memory is useful if you’re trying to keep a running total of calculations.
Once entering an expression, press
[M+]
instead of
[=]
to add your result from the running total.
To subtract the result, use
[M-]
To display the currently stored total, use
[RCL] [M]
< Return
M-
M
(Your value will be preserved when the calculator is turned off.
See the [CLR] button to see how to wipe the value.)Slide31
Clear Memory
CLR
This allows you to delete the values you’ve stored for variables and in independent memory.
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Permutation Function
nPr
This function used in ‘Combinatorics’ (the study of arrangements of items and structures), allows us to find the number of ways of picking r objects from n, and putting them in a line.
Example:
We have 5 cards with the letters A, B, C, D, E.
We want to put 3 in a line. This gives words such as ABC, AEC, DEA, etc. How many possibilities are there?
[5] [
nPr
] [3]
60
This function tends not to be used very often – the ‘choose’ function (
nCr
) is much more common.
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Choose Function
nCr
This function used in ‘Combinatorics’ (the study of arrangements of items and structures), allows us to find the number of ways of choosing r objects from n, such that the order of the items doesn’t matter.
Examples:
“How many different possible lottery tickets are there?”
You choose 6 numbers from 49. So:
[49] [
nCr
] [6] [=]
13983816
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Polar and Rectangular (
Catersian
)
Coords
Pol
Cartesian coordinates are represented by x and y values (and any further dimensions).
Polar coordinates however are represented by the distance of the origin, and the angle anticlockwise from the x-axis.
< Return
Rec
(√3,1)
2
30
x
y
In Cartesian coordinates:
(√3,1)
In Polar coordinates:
(
2
,
30)To convert Rectangular to Polar:[POL] [√][3] [,] [1] [=]To convert Polar to Rectangular:[REC] [2] [,] [30] [=]Slide35
Statistic
STAT
Allows you to calculate a statistic (such as mean, variance, correlation strength) based on a data set you’ve entered. Click on the MODE button from the calculator display and then ‘Stats’ for more information.
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Rounding
Rnd
Rounds a number according to the current accuracy set on he calculator.
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Random Numbers
RAN#
This will give you a three-digit random number between 0 and 1.
To find a random number between 0 and 5:
[RAND] [
] [5] [=]
3.78
Gives you a random integer (whole number) between a and b. Since this is in red, you need to use the ALPHA button to access it.
Random integer between 1 and 6:
[ALPHA] [
RanInt
] [1] [,] [6] [=] 4
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RanInt
To get a list of random integers, just put your calculator in TABLE mode, then use the function
Slide38
Pi
Pi is typically used in calculations to do with circles.
It is a constant with the value 3.1415...
< Return
3
Using
:
[2] [x] [3] [x] [
] [=]
Using
[
] [x] [3] [x
2
] [=]
Circumference
AreaSlide39
Standard Form
x10
x
Standard Form allows us to represent large or small numbers without having to use lots of digits.
Your calculator will automatically put your number in standard form if it can’t fit your number on the screen.
[3.2] [
] [5] [=]
320000
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The Answer Button
ANS
This incredibly handy button allows you to use your previous answer in a subsequent calculation.
[3] [x] [2] [=]
6
[ANS] [+] [1] 7
At A Level, it is incredibly useful for iterative formulas:
Suppose
, and you start with
.
[3] [=] 3
[2] [+] [1] [/] [ANS] 2.333...
[=] 2.428...
[=] 2.411...
As you can see, we can keep hitting the = key to perform further iterations.
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Stats Mode
< Return
1 - VAR
> Click to see how to enter your data.
This mode allows you to calculate various statistics based on a table of data, e.g. mean, variance, standard deviation, the equation of the line of best fit, strength of correlation, etc. You’ll be presented with various options:
For your single variable, calculates things like mean, standard deviation, variance, etc.
Single Variable (X)
Use when you have just one variable, e.g. height, weight, shoe size.
Two Variables (X, Y)
Use when you have a scatter diagram, e.g. hours revised against test score.
A + BX
Assumes your data points roughly follow a straight line, i.e. have a
linear
relationship. e.g. will find a
straight line of best fit
for you. Use if you’re trying to find the
Product Moment Correlation Coefficient
(which assumes a linear relationship).
_ + CX
2
Assumes y has a quadratic relationship to x, i.e. Your points roughly fit onto a parabola.
ln XAssumes your data follows the model y = a ln X + by = a + bxy = a + bx + cx2Slide42
Stats Mode – Entering Data
< Back
A table should appear.
Enter each X value in your data, pressing [=] after each one. If you have two variables, your Y value will temporarily be set to 0.
If you have a second variable, use the arrow keys to move to the top of the Y column. Now enter your Y values using [=] again.
Once you’ve finished entering your data, press the [AC] button to go back to calculation entry mode, so that you can now calculate statistics based on your table. You can modify your table again using SHIFT -> [1] and selecting ‘Data’.
> Click to see how you now calculate statistics based on your table.
AC
Important Note: If you want a frequency column (which is NOT the same as having a second variable
!), first press SHIFT -> SETUP, press down, select STAT and turn frequency on. You will not need to do this setup again even after your calculator is switched off.
Slide43
Stats Mode – Calculating Statistics
< Back
Presuming you have just pressed the [AC] button while in Stats mode:
< Home
1
|STAT|
Use the |STAT| button (SHIFT and 1). This will present a number of options...
Sum
Finds the sum of the values of your variables. e.g.
x
,
x
2
(useful when calculating variance),
y
,
xy, etc.
VarAllows you to calculate the mean of x or y, the number of items n, and the population or sample standard deviations.RegWill find the a, b (and c) in your line or best fit, whether a + bx (if a straight line) or otherwise.Will also find your correlation coefficient r (known as the PMCC for the linear case).MinMaxUnsurprisingly, will find the maximum or minimum X or Y value.Once you’ve chosen a statistic to use, it’ll appear in your calculation area. You can always combine multiple together. Once done, press [=]< Home> PracticeSlide44
Stats Mode – Exercise
< Back
< Home
Use your calculator to directly calculate the following statistics.
Age
of dwarf (x)
Orcs
killed in battle (y)
46
1423
57
1203
26
697
105
1948
A formula for estimating the number of
orcs
killed (y) using the age of the dwarf (x).
(Use Reg a to find the y-intercept and Reg
b to find the gradient of your line of best fit)The Product Moment Correlation Coefficient.(Use
Reg r. -1 means perfect negative correlation, 0 means no correlation, and 1 mean perfect positive correlation)The average number of orcs killed in battle.(Use Var .) Click to RevealClick to RevealClick to RevealSlide45
Table Mode
< Back
In some exam questions you’re asked to calculate a table of values for a given function:
x
-1
-0.5
0
0.5
f(x)
1.5
0.75
0.5
0.75
f(x) = x
2
+ 1/2
Your calculator can do this for you. Once in table mode, your calculator display should look like this:
Now input some expression in terms of X. You can use [ALPHA]
[X] to use X in your expression.
> NextSlide46
Table Mode
< Back
Now press [=]. You will be asked for the ‘Start’ number.
In our table, the first value of x is -1. Type in -1 and press [=]
You will now be asked for the ‘End’ number. In our table above, the last value of x is 1.
Type 1 then press [=].
Finally you’re asked for the
step size
. This is how much x is increasing by each time. In our table, it’s 0.5.
Once you press equals, you’ll be presented with a nice looking table.
You can use the arrow keys to scroll through it.
x
-1
-0.5
0
0.5
1f(x)1.5
0.750.50.751.5
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Secret Menu!
7
Hold [SHIFT] and [7] and then press [ON].
Now press [9], then [SHIFT] 5 times.
After waiting for the messages to display, press [AC]. You can change the screen contrast, and pressing [AC] again activates a button test – pressing each button (in the correct order!) displays a different integer.
< Return