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To solve this problem, let us say that:
x = volume of 1:2000 drug "i" solution
y = volume of 7% drug "i" solution
Assuming volume additive, then this forms:
x + y = 120 mL
<span>x = 120 – y ---> 1</span>
1:2000 also refers to 0.0005 concentrations and 7% also
refers to 0.07 concentrations. By doing a component balance:
0.0005 x + 0.07 y = 0.035 (120 mL)
0.0005 x + 0.07 y = 4.2
Substituting equation 1 into this derived equation to get an
equation in terms of y:
0.0005 (120 – y) + 0.07 y = 4.2
0.06 – 0.0005 y + 0.07 y = 4.2
0.0695 y = 4.14
y = 59.568 mL = 59.57 mL
From equation 1, x would be:
x = 120 - 59.57
x = 60.43 mL
Answers:
59.57 mL of 1:2000 drug "i" solution
60.43 mL <span>of 7% drug "i" solution</span>
<span>carbon + oxygen → carbon dioxide</span>
Answer:
It's size
Explanation:
The definition of a dwarf planet is "a celestial body that orbits the sun and has a spherical shape but is not large enough to disturb other objects from its orbit"
Essentially, "dwarf" is an adjective. Just like saying the colour distinguishes a purple planet...
The order of increasing energy is red, yellow, and blue
In physics for a given wave function, the wavelength is defined as the distance between two consecutive points in the waveform. Light is considered a wave and a particle. White light can split into colors of different wavelengths.
The wavelength of visible light ranges from 300 to 700 nm comprising the color VIBGYOR. Wavelength is calculated by the formula velocity divided by the frequency.
If the frequency of the given form is high, then the energy is also high.
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Rank the following photons in terms of increasing energy: (a) blue (λ = 453 nm); (b) red (λ = 660 nm); (c) yellow (λ = 595 nm).
As the frequency is inversely proportional to the wavelength, the energy is also inversely proportional. A higher wavelength will have lower energy.
To know more about wavelength, visit
