A patient requires 36 mmol of phosphate and 90 meq of potassium in their pn. the pharmacy has stock solutions of potassium phosphate (3 mmol of phosphate and 4.4 meq potassium per ml) and potassium chloride (2 meq potassium/ml). how many milliliters of potassium chloride are required?

N2 has a lower boiling point than CO because N2, being a nonpolar molecule, can't exhibit dipole-dipole attractions that CO, being a polar molecule, can. This results in weaker intermolecular forces in N2 than CO, hence a lower boiling point.

The reason why N2 has a lower boiling point than CO is due to the different intermolecular forces they experience. Both CO and N2 are diatomic molecules with similar atomic masses, therefore, they experience similar London dispersion forces. However, the key difference is that CO is a polar molecule and thus, it experiences dipole-dipole attractions. On the other hand, N2 is a nonpolar molecule and therefore, can't exhibit dipole-dipole attractions. Hence, the dipole-dipole attractions in CO are stronger than the dispersion forces in N2, leading to a higher boiling point for CO.

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Final answer:

To find the total moles of atoms in the propane sample, consider its molecular formula, with 3 carbon atoms and 8 hydrogen atoms.

Explanation:

The total moles of atoms in the propane sample can be calculated by considering the molecular formula of propane, C₃H₈.

Propane consists of 3 carbon atoms and 8 hydrogen atoms.

Therefore, in the given sample, there are a total of 3 x 15.7 moles of carbon atoms and 8 x 15.7 moles of hydrogen atoms.

Answer:

greater than

Explanation:

just took it and yes i know someone already answered but i figred this would be quicker!!!!!!

Answer:

The molar solubility of [tex]Ni(OH)_2[/tex] in water [tex]7.93\times10^{-6} mol/L[/tex].

Explanation:

[tex]Ni(OH)_2\rightleftharpoons Ni^{2+}+2OH^-[/tex]

                        S        2S

Solubility of Nickel hydroxide =[tex]K_{sp}=2.0\times 10^{-15}[/tex]

[tex]K_{sp}=S\times 2S^{2}=4S^3[/tex]

[tex]2.0\times 10^{-15}=4S^3[/tex]

[tex] S=7.93\times10^{-6} mol/L[/tex]

The molar solubility of [tex]Ni(OH)_2[/tex] in water [tex]7.93\times10^{-6} mol/L[/tex].

The chemical formula of that compound is POCl₃ and Its chemical name is phosphoryl chloride.

It is a chemical compound and its formula is POCl₃. It is manufactured industrially on a large scale from phosphorus trichloride and oxygen. It is a colorless liquid and has a pungent smell, Its molar mass is 153.33 grams per mole, its melting and boiling points are 274.4 K and 378.9 K respectively, it is soluble in water, and its molecular shape is tetrahedral. It is a reducing agent.

It is used in the making of semiconductors, plasticizers, hydraulic fluids, organophosphorus, and pesticides, and it is widely used as a chlorinating agent and dehydrating agent in laboratories.

Hence, the chemical formula of phosphoryl chloride is POCl₃.

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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

x = 120 – y                    ---> 1

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 of 7% drug "i" solution

Answer:

C

Explanation:

Answer: A carbon atom is most likely to form covalent bond(s) with other atoms.

Explanation:

Carbon atom is a group 14 element and its atomic number is 6. So, electronic distribution of carbon is 2, 4.

That is, it contains only 4 valence electrons. So, in order to attain stability it always needs to gain 4 more electrons by sharing its valence electrons with other atom.

Since, compounds formed due to sharing of electrons are known as covalent compounds.

Therefore, we can conclude that a carbon atom will always form covalent bond with other atoms.

A carbon atom is most likely to form covalent kind of bond with atoms. Therefore, the correct option is option B.

Two atoms sharing electron pairs form a type of chemical bond known as a covalent bond. Atoms in a molecule are joined by a powerful bond. In covalent bonds, electrons are often shared between nonmetal atoms in order to create a stable electron configuration. The two atoms are attracted to one another due to their common electron pair, which keeps them together in a molecule. The formation and stabilisation of molecules like water and methane depend heavily on covalent bonds.

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For energy level 5, there are five sublevels (s, p, d, f, and g).

In the periodic table, the energy level of an element is represented by the principal quantum number (n). Energy level 5 corresponds to the principal quantum number (n = 5). The sublevels within an energy level are represented by the azimuthal quantum number (l). The possible values of l range from 0 to (n - 1).

Therefore, for energy level 5 (n = 5), the possible values of l would be 0, 1, 2, 3, and 4.

Each value of l corresponds to a different sublevel designation:

l = 0: s-sublevel

l = 1: p-sublevel

l = 2: d-sublevel

l = 3: f-sublevel

l = 4: g-sublevel

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Answer:

We can't solve this problem with that data.

Explanation:

Hi! Let's solve this!

To calculate the mass percentage, use (mass of Fe / total mass of ore) * 100

In this case we have the mass of Faith but the exercise does not have enough information to calculate the percentage.

We can't solve this problem with that data.

Boron is 5 in the periodic table of elements and the mass is rounded up 10 11. If the atomic number of boron is 5, that means that there would be 5 protons and 5 electrons.

The correct option is b. The balanced chemical equation for the combustion of propane is C₃H₈ + 5O₂ → 3CO₂ + 4H₂O. The molar ratio of the reactants and products is 1:5:3:4. Therefore, the correct option given is Reactants: C₃H₈ = 1, O₂ = 5; Products: CO₂ = 3, H₂O = 4.

The molar ratio for the combustion of propane (C₃H₈ ), we must first balance the chemical equation. The unbalanced equation is: C₃H₈ + O₂ → CO₂ + H₂O

Balancing carbon (C) atoms: C₃H₈ + O₂ → 3CO₂ + H₂O

Balancing hydrogen (H) atoms: C₃H₈ + O₂ → 3CO₂ + 4H₂O

Balancing oxygen (O) atoms: C₃H₈ + 5O₂ → 3CO2 + 4H₂O

Therefore, the balanced equation is: C₃H₈ + 5O₂ → 3CO₂ + 4H₂O

From this balanced equation, we see the molar ratio is: C₃H₈ : O₂ : CO₂ : H2O = 1 : 5 : 3 : 4

Thus, the correct choice is B : Reactants: C₃H₈ = 1, O₂= 5; Products: CO₂ = 3, H2O = 4

Answer:

Explanation:

The balanced reaction should be like this: [tex]2O_{2} + CH_{4} = CO_{2} + 2H_{2}O[/tex]

So, as you can see, balance mean that molecules in the reaction has to be equal, the amount of element involved has to be the same, due to the Conservation of the Mass Law.

So, Hydrogen and Oxygen are not balanced in the given expression, that's why we need to add those coefficients.

The pH of a 0.0075 M concentration of hydrochloric acid HCl equals 2.1, calculated using the formula pH = -log[H3O+].

The pH of a solution can be determined using the formula pH = -log[H3O+]. In the case of a 0.0075 M concentration of hydrochloric acid (HCl), HCl is a strong acid and so it will ionize completely in water to form H+ (or H3O+) and Cl- ions. Since the concentration of H+ ions equals the initial concentration of the acid, we have [H3O+] = 0.0075 M. Applying the formula, we would find the pH = -log(0.0075) which equals roughly 2.1. This means that the pH of 0.0075 M HCl is 2.1.

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Answer:

Explanation:

The amine functional group is obtained by subsititution of one or more hydrogen atoms in the ammonia compound.

Ammonia is NH₃.

Then,

                        R'''

                         |

                 R' -  N - R''

In this case, the three subsitutuents are silyl groups. The silyl group is derived form silane and is SiH₃. So, the tcompound trisilylamine is:

                    SiH₃

                      |

          SiH₃ -  N - SiH₃

Thus, you can count 3 hydrogen atoms for every silylgroup for a total of 9 hydrogen atoms in each molecule of trisilylamine.

Explanation:

An atom holds three sub-atomic particles and these are protons, neutrons and electrons.

Protons have a positive charge, neutrons have no charge and electrons have a negative charge.

Also, when an atom or element is neutral in nature then it means it contains same number of protons and electrons.

For example, sodium element is a neutral atom as it contains 11 protons and 11 electrons.

Thus, we can conclude that for elements to maintain a neutral charge, protons and electrons are the two particles that must have equal numbers.

Energy is released in the making of a solution during the process of mixing the solute and solvent particles, characterizing it as an exothermic process.

In the process of making a solution, specifically in Chemistry, energy is always released when mixing the solute and solvent particles. This process is also referred to as the exothermic process. In an exothermic process, the system (i.e., the solute and solvent) releases energy to its surroundings.

Think about when you dissolve salt in water. The salt particles, or solute, disperse among the water particles, or solvent, thus forming a solution. In this process, heat is often produced and released to the environment, signifying that energy is released during the dissolving process.

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In the chemical reaction of NH3 with O2 that produces NO and H2O, the stoichiometric ratios are used to determine that 4.5 moles of H2O production results in the formation of 3 moles of NO.

The question is referring to a chemical reaction, specifically a stoichiometric equation. The equation shows the reaction between ammonia (NH3) and oxygen (O2) to produce nitrogen monoxide (NO) and water (H2O).

According to the stoichiometric coefficients, which are the numbers in front of the molecules, for every 6 moles of water (H2O) formed, 4 moles of nitrogen monoxide (NO) are produced. To find how much NO is produced when only 4.5 moles of H2O are formed, we need to set up a proportion: 4 NO/6 H2O = x (moles of NO)/4.5 H2O. Solving for x gives us 3 moles of NO.

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Final answer:

The equilibrium constant (Kc) of 2×10¹¹ndicates that at equilibrium, the concentration of carbon dioxide will be relatively high, while the concentrations of carbon monoxide and oxygen will be low.

Explanation:

The equilibrium constant for the production of carbon dioxide from carbon monoxide and oxygen is Kc = 2×10¹¹. The equilibrium constant expression for this reaction is given by:

Kc = [CO₂] / ([CO]²[O₂]).

Based on the equilibrium constant value of 2×10¹¹, the reaction mixture at equilibrium is likely to consist of a relatively high concentration of carbon dioxide and low concentrations of carbon monoxide and oxygen.

The balanced equation for the reaction is:

Hello!

If 832J of energy is required to raise the temperature of a sample of aluminum from 20.0°C to 97.0°C, what mass is the sample of aluminum? (The specific heat of aluminum is 0.90 J/(g × °C).

a) 0.10 g

b) 10.0 g

c) 12.0 g

d) 57.7 g

Data:

Q (Amount of heat) = 832 J

m (mass) = ?

c (Specific heat) = 0.90 J/(g × ° C)

T (final) = 97 ºC

To (initial) = 20 ºC

ΔT = T - To → ΔT = 97 - 20 → ΔT = 77 ºC

Formula:

Q = m*c*ΔT  

Solving:

[tex]Q = m*c*\Delta{T}[/tex]

[tex]832 = m*0.90*77[/tex]

[tex]832 = 69.3\:m[/tex]

[tex]69.3\:m = 832[/tex]

[tex]m = \dfrac{832}{69.3}[/tex]

[tex]\boxed{\boxed{m \approx 12.00\:g}}\end{array}}\qquad\quad\checkmark[/tex]

Answer:

12.0 g

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