Describe two ways for reducing fractions.
What will be an ideal response?
The normal way to reduce a fraction is to find the largest number that can be divided into both the denominator and numerator. If you are good at math, that can be easily done, but if you are not good at doing math in your head, there is an alternate way of reducing fractions. For reducing fractions in a welding fabrication shop, it is often easiest to divide both the numerator and denominator by 2. This method will simplify the reduction because all the fractional units found on shop rules and tapes are divisible by 2, for example, halves, fourths, eighths, sixteenths, and thirty-seconds. Using this method may require more than one reduction, but the simplicity of dividing by 2 offsets the time needed to repeat the reduction. For example, both the denominator and numerator of 4/8 can be divided by 2, so 4/2 = 2 and 8/2 = 4. That would make the new fraction 2/4, which can be reduced again by dividing the denominator and numerator one more time by 2. This last division results in 2/4 being reduced to 1/2. Reduction of fractions becomes easier with practice.
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A. it is written to EEPROM B. it is retained magnetically C. it is activated until the next start cycle D. it is lost
Many successful start-up companies were developed in the ____
a. homes or garages of their first owners b. public schools c. public gardens of their communities d. local library
Research accident avoidance systems used in current or planned automated vehicles. Summarize how the systems function.
What will be an ideal response?
Virtual condition is one of the conditions in which a feature size can be outside of MMC.
Answer the following statement true (T) or false (F)