Answer:
91 millilitres
Explanation:
Recommended application = 65mg / Kg
This means 65 mg of dicyclanil per kg (1 kg of body mass).
Concentration = 50 mg / mL
How many millilitres required to treat 70kg adult?
If 65mg = 1 kg
x = 70 mg
x = 70 * 65 = 4550 mg
Concentration = Mass / Volume
50 mg/mL = 4550 / volume
volume = 4550 / 50 = 91 mL
Answer:
they are carried away and deposited wherever.
there are many wanys sediments can be carried so common examples would be... by wind, water, or by animals.
Explanation:
1 liter of O and 1 liter of NE have the same number of molecules.
Quick summary:
Homeostasis describes an environment that supports the survival of cells. It is achieved by making sure the temperature, pH (acidity), and oxygen levels (and many other factors) are set just right. All of your body's systems work together to maintain homeostasis inside your body.
key sentences:
-Homeostasis is a term that is used to both describe the survival of organisms in an ecosystem and to describe the successful survival of cells inside of an organism.
-Organisms and populations of organisms can maintain homeostasis in an environment when they have a steady level of births and deaths.
-It is similar to the idea of equilibrium.
-All of your body's systems work together maintain homeostasis inside of your body.
-Homeostasis is achieved by making sure the temperature, pH (acidity), and oxygen levels (and many other factors) are set just right for your cells to survive.
Summary paraphrased a bit: (<em>Might not 100% make sense grammatically, but it can be a decent guide)</em>
Homeostasis describes an environment which promotes cell survival. It is done by ensuring that the levels of temperature , pH (acidity), and oxygen (and several other variables) are set just right. To maintain homeostasis within your body, all of your body's systems work together.
Answer:
26.33mL
Explanation:
In solving this question, we apply the general gas equation
(P1×V1)/T1 = (P2×V2)/T2
P1= initial pressure of the gas=0.974atm
V1= intial volume the gas occupies =27.5mL
T1=initial temperature of the gas =22°C =22+273K=295K
P2 = Final pressure of the gas = 0.993atm
V2= final volume of the gas = ?
T2 = final temperature of the gas = 15°C = 15+273=288K
From (P1×V1)/T1 = (P2×V2)/T2, we make V2 subject of formula
V2=(P1×V1×T2)/(P2×T2)
We substitute the given values
V2=(0.974×27.5×288)/(0.993×295)
V2=7714.08/292.935
V2=26.33mL