100 - 300 is equal to -200.
300 - 25% = 300 x (1 - (25/100)) = 300 x 0.75 = 225
300 decreased by 17 percent = 249
320 decreased by -20 = 300
80 decreased by 100 percent = zero
120 decreased to 100 is a decrease of 16.67%
n - 100
100 + 100 + 100= 300 i luv u
n - (n * p) example: 100 decreased by 25%. 100 - (100 * 25%) 100 - (100 * 0.25) 100 - (25) 100 decreased by 25% is 75.
3
1/100 of 300 = 300 / 100 = 3So 9/100 of 300 = 9 x 3 = 27
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.
Seriously honestly I have no IDEA why I'm even answering . But the answer is 300. 300!