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Suppose k is m what percent of k is m?
my bad!!! its : Suppose k is 20% of m.
What equation shows that k is one more than twice m?
K is two times m add 1 k = (2 m ) + 1 k=2m+1
If k equals 1000 than m equals what?
We need a formula to work this one out.If k = m, then m - 1000If k = 2m, then m = 500If k = 0.5m, then m = 2000You need to provide us with more information before we can answer this.
How many centimeters are in 9 meters?
The centi- prefix means one hundredth 1/100 Thus 1 cm = 1/100 m So 1 m = 100/100 m = 100 × 1/100 m = 100 cm 9 m = 9 × 100 cm = 900 cm
How many miles 100 k?
100 k = 62.14 miles (to 2 dp)
One hundred divided by the sum of k and m?
100/(k+m)Its actual value depends on the values of 'k' and 'm' .
What M stand for in HPMC K 100 M?
K means 1000 as a multiplier of 1000
What K stand for in HPMC K 100 M?
K means 1000 as a multiplier of 1000
Write a numerical or algebraic expression for the word expression. One hundred divided by the sum of k and m.?
(100)/(k+m)
What is 0.521 as a percentage?
gufjutbjtcnbjtv hgn hjj jn jb nb b n b nm nj mk m mj m m k k k , , k, , k ,k k k k k k k m mm m m m m m
What is Pantone?
cmyk color c=100 m=72 y=0 k=30
Suppose k is m what percent of k is m?
my bad!!! its : Suppose k is 20% of m.
What is pantone 413C?
cmyk color c=100 m=72 y=0 k=30
How do you pronounce Mikael?
M I K A E L M I K A E L M I K A E L
What is the cmyk values of the orange in the Indian flag?
Cyan : 7 M : 82 Y : 100 K : 1
Does 100 km 1 cm?
K H Da B D C M 100km = 10,000,000cm
The temperature of the ideal gas in the container shown is 300 K The gas occupies a volume of 1.27 m3 What would the volume of the gas be if its temperature were decreased to 100 K?
If the temperature of the gas is decreased to 100 K, and the pressure remains constant, the volume of the gas can be calculated using the ideal gas law equation: V1/T1 = V2/T2. Given V1 = 1.27 m^3 and T1 = 300 K, and T2 = 100 K, we can solve for V2: V2 = V1 * T2/T1. Plugging in the values gives V2 = 1.27 * (100/300) = 0.4233 m^3. Thus, the volume of the gas would be approximately 0.4233 m^3 if its temperature were decreased to 100 K while keeping the pressure constant.
