100 K, or 100,000, is equivalent to 0.1 million (M). In numerical terms, 1 million is equal to 1,000,000, so 100,000 is one-tenth of that.
my bad!!! its : Suppose k is 20% of m.
K is two times m add 1 k = (2 m ) + 1 k=2m+1
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.
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
100 k = 62.14 miles (to 2 dp)
To convert a decimal to a percentage, you multiply by 100. So, 0.521 multiplied by 100 is 52.1%. Therefore, 0.521 as a percentage is 52.1%.
100/(k+m)Its actual value depends on the values of 'k' and 'm' .
K means 1000 as a multiplier of 1000
K means 1000 as a multiplier of 1000
(100)/(k+m)
cmyk color c=100 m=72 y=0 k=30
my bad!!! its : Suppose k is 20% of m.
cmyk color c=100 m=72 y=0 k=30
Cyan : 7 M : 82 Y : 100 K : 1
K H Da B D C M 100km = 10,000,000cm
M I K A E L M I K A E L M I K A E L
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.