kFractions

In the Math input/output mode, the fraction input method is different from that described below. For fraction input operations in the Math input/output mode, see page 1-13.

Be sure to specify Comp for Mode in the Setup screen.

 

 

 

Example

 

 

Operation

 

 

 

 

 

 

 

2

1

73

 

 

 

$2c5e+!$(&) 3e1c4w

–– + 3 –– = –––

 

 

5

4

20

 

 

 

<Linear input/output mode>

 

 

 

 

 

 

2$5+3$1$4w

 

= 3.65 (Conversion to decimal)*1

M

1

 

1

= 6.066202547

10–4

*2

$1c2578e+$1c4572w

––––– + –––––

2578

 

4572

 

 

 

<Linear input/output mode>

 

 

 

 

 

 

1$2578+1$4572w

1

 

 

 

 

 

$1c2e*.5w

–– 0.5 = 0.25*3

 

 

2

 

 

 

 

 

<Linear input/output mode>

 

 

 

 

 

 

1$2*.5w

 

 

 

 

 

 

 

*1 Fractions can be converted to decimal values and vice versa.

*2 When the total number of characters, including integer, numerator, denominator and delimiter marks exceeds 10, the fraction is automatically displayed in decimal format.

*3 Calculations containing both fractions and decimals are calculated in decimal format.

Pressing the !M(<) key toggles the display fraction between mixed fraction and improper fraction format.

kEngineering Notation Calculations

Input engineering symbols using the engineering notation menu.

• Be sure to specify Comp for Mode in the Setup screen.

Example

Operation

 

 

999k (kilo) + 25k (kilo)

!m(SET UP)ff4(Eng)J999K6(g)6(g)

= 1.024M (mega)

1(ENG-SYM)6(g)1(k)+251(k)w

9 10 = 0.9 = 900m (milli)

9/10w

= 0.9

K6(g)6(g)1(ENG-SYM)6(g)6(g)3(ENG)*1

= 0.0009k (kilo)

3(ENG)*1

= 0.9

2(ENG)*2

= 900m

2(ENG)*2

*1 Converts the displayed value to the next higher engineering unit, by shifting the decimal point three places to the right.

*2 Converts the displayed value to the next lower engineering unit, by shifting the decimal point three places to the left.

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