I’m not good at chemistry

Answer:

At equal concentration of HBCG and BCG^-, the colour is green. This colour first appears at pH = 3.8

Explanation:

HBCG is an indicator that is prepared by dissolving the solid in ethanol.

Since

Ka=[BCG−][H3O+][HBCG]When [BCG-] = [HBCG], then Ka = [H3O+].

If pH = 3.8

Ka= [H3O+] = -antilog pH = -antilog (3.8)

Ka= 1.58 ×10^-4

Answer:

The given metal sample is not aluminum because its density is 3.0 g/cm³ while density of aluminum is  2.7 g/cm³.

Explanation:

Given data:

Density of aluminum = 2.7 g/cm³

Mass of metal sample = 52.0 g

Volume of metal sample = 17.1 cm³

which sample is that = ?

Solution:

The given problem will be solve through density formula.

d = m/v

d = density

m = mass

v= volume

Now we will put the values in formula.

d = 52.0 g/ 17.1 cm³

d = 3.0 g/cm³

It is given in question the density of aluminum is 2.7 g/cm³. The given metal sample is not aluminum because its density is 3.0 g/cm³.

Answer: any options like a or b

Explanation:

Answer:

electron

Explanation:

Answer: atoms

Explanation: cell membrane is in a cell

Answer:

graph a shows acceleration and b does not

Explanation:

the velocity increases in graph a, but stays constant in graph b

Answer:

graph a shows acceleration and b does not

Explanation:

Answer: D

Explanation:

It is the most likely one

Explanation:

sorry if you get it wrong but I think its b

Answer:

50x10^0

Explanation:

Explanation:

nothing it is just a question. you should know the answer . example:you,

Answer:

Extent of reaction = 95.9 mol.

Fractional conversion of the limiting reactant = 0.846.

Percentage by which the other reactant is in excess = 25.2 %.

Explanation:

Hello.

In this case, for the undergoing chemical reaction:

[tex]CH_2=CH_2+HBr\rightarrow CH_3-CH_2Br[/tex]

We can write the mole balance per species also including the extent of the reaction:

[tex]CH_2=CH_2:A\\\\HBr: B\\\\CH_3-CH_2-Br:C[/tex]

[tex]x_AP=z_AF-\epsilon \\\\x_BP=z_BF-\epsilon \\\\x_CP=\epsilon[/tex]

Considering that P is the flow of the outlet product. In such a way, writing the data we know, we can write:

[tex]0.33P=z_A*265-\epsilon \\\\0.103P=z_B*265-\epsilon \\\\0.567P=\epsilon[/tex]

Whereas we can replace the C2H5Br mole balance in the others mole balances:

[tex]0.33P=z_A*265-0.567P \\\\0.103P=z_B*265-0.567P\\\\\\z_A*265-0.897P=0\\\\z_B*265-0.67P=0[/tex]

By knowing that [tex]z_B=1-z_A[/tex], we can write:

[tex]z_A*265-0.897P=0\\\\(1-z_A)*265-0.67P=0\\\\\\z_A*265-0.897P=0\\\\-z_A*265-0.67P=-265[/tex]

Thus, solving for P and [tex]z_A[/tex], we obtain:

[tex]z_A=0.572\\\\P=169.11mol[/tex]

It means that the extent of the reaction is:

[tex]\epsilon=0.567P=0.567*169.11mol\\\\\epsilon=95.9mol[/tex]

For the limiting reactant, due to the 1:1 mole ratio between the reactants, it is the one having the smallest flow rate:

[tex]F_A=0.572*265mol=151.58mol\\\\F_B=265mol-151.58mol=113.42mol[/tex]

It means that the limiting reactant is B which is HBr, whose fractional conversion is:

[tex]X_B=1-\frac{0.103*169.11}{113.42mol}\\ \\X_B=0.846[/tex]

Finally, the percentage by which the other reactant is in excess, corresponds to:

[tex]\% excess =(1-\frac{113.42mol}{151.58mol})*100\%\\ \\\%excess=25.2\%[/tex]

Regards.

Answer:

No. of atom =

no.of moles x avagardro's number xatomicity

= weight /molar mass x No x atomicity

=8.2/142 x6.02x10^23 x 4

=0.346 x 10^23(approximately)

Answer:

22.5mL is the volume of the water

Explanation:

When the graduated cylinder is  in the 25.0mL mark, the mass of this volume is 22.4g. To convert this mass to volume we need to use density, as follows:

22.4g × (1mL / 0.99704g) = 22.5mL is the volume of the water.

That means the cylinder is uncalibrated in 2.5mL when the cylinder is in the 25.0mL mark

Answer:

b

Explanation:

jus bc

Fluorine F₂ is the correct formula for two atoms in sharing of electrons as they have covalent bond among them. Therefore, option (A) is correct.

A covalent bond is created through sharing of electrons between different or the same kinds is known as a covalent Bond.

A covalent bond has equal sharing of electrons among bonded atoms. The pair of electrons which is shared between atoms is known as shared pair.

Sharing of electrons will help atoms to attain stability in their valence shell as noble gases. Atoms share their electrons with the other atoms in a way so that both atoms can gain octet configuration in their valence shell.

The bond between two fluorine atoms is a covalent bond formed by sharing of electrons. The Bond between sodium and chlorine in NaCl, KBr, and CaCl₂ is an ionic bond formed by the complete transfer of electrons.

Learn more about the covalent bond, here:

brainly.com/question/19382448

#SPJ2

Explanation:

1a) CaCO₃(s) → Ca²⁺(aq) + CO₃²⁻(aq)

1b) Remember, solids are not included in the equilibrium equation.

K = [Ca²⁺] [CO₃²⁻]

1c) Adding CO₃²⁻ ions will shift the reaction to the left, producing CaCO₃(s) until equilibrium is restored.

2) 2 SO₂(g) + O₂(g) → 2 SO₃(g)

Kc = 2.5×10¹⁰ = [SO₃]² / ([SO₂]² [O₂])

2a) SO₂(g) + ½ O₂(g) → SO₃(g)

Kc = [SO₃] / ([SO₂] [O₂]^½)

Kc² = [SO₃]² / ([SO₂]² [O₂])

Kc² = 2.5×10¹⁰

Kc ≈ 1.58×10⁵

2b) SO₃(g) → SO₂(g) + ½ O₂(g)

Kc = [SO₂] [O₂]^½ / [SO₃]

Kc = 1 / (1.58×10⁵)

Kc ≈ 6.33×10⁻⁶

2c) 3 SO₂(g) + ³/₂ O₂(g) → 3 SO₃(g)

Kc = [SO₃]³ / ([SO₂]³ [O₂]^³/₂)

Kc = ([SO₃] / ([SO₂] [O₂]^½))³

Kc = (1.58×10⁵)³

Kc ≈ 3.95×10¹⁵

3) H₂(g) + I₂(g) → 2 HI(g)

K = [HI]² / ([H₂] [I₂])

Make an ICE table.

[tex]\left[\begin{array}{cccc}&Initial&Change&Equilibrium\\H_{2}&0.400&-0.240&0.160\\I_{2}&1.60&-0.240&1.360\\HI&0&+0.480&0.480\end{array}\right][/tex]

K = (0.480)² / (0.160 × 1.360)

K = 1.06

Answer:

Explanation:

Calcium chloride is a soluble salt which dissociates into calcium and chloride ions when dissolved in water.

CaCl₂(aq) ----> Ca²⁺(aq) + 2Cl⁻(aq)

Similarly, sodium oxalate when dissolved in water dissociates into sodium and oxalate ions.

Na₂CO₄(aq) ----> 2Na⁺(aq) + C₂O₄²⁻(aq)

However, in a double displacement reaction where the two solutions of the salts are mixed, the insoluble salt calcium oxalate is precipitated. The net ionic equation for the reaction is shown below:

Ca²⁺(aq) + C₂O₄²⁻(aq) ----> CaC₂O₄(s)

Answer:

2.5 g

Explanation:

First we have to calculate the diffusion flux (J). To calculate, we use the formula:

[tex]J=-D\frac{dC}{dx}=-D\frac{C_2-C_1}{x_2-x_1}\\ \\Given\ that:\\\\x_2-x_1=0.1\ cm,D=110*10^{-8}cm^2/s,C_2=0.02g/cm^3,C_1=0.44g/cm^3\\\\Substituting:\\\\J=-110*10^{-8}(\frac{0.02-0.44}{0.1} )=4.62*10^{-6}g/cm^2s\\\\But, J=\frac{M}{At}\\ \\t=3\ hours=10800\ s,A=50\ cm^2\\\\Substituting:\\\\4.62*10^{-6}=\frac{M}{50*10800}\\ \\M=4.62*10^{-6}*50*10800\\\\M=2.5\ g[/tex]

Answer:

C.Thermal energy will move from the ice to the air.

Explanation:

Answer:

0.00310

Explanation:

Answer:

(9.13)

multiply the mass value by 100

=913 milligrams

Answer:

913 mg

Explanation:

913

Answer:

solider liquid and gas plasma

Explanation:

in physical a state of matter is one of the distant form in which matter can exist four states of matter are observable in everyday life solid liquid and gas and plasma. hope it helps

In physics, a state of matter is one of the distinct forms in which matter can exist. Four states of matter are observable in everyday life: solid, liquid, gas, and plasma.

Answer:

False.

This is false because, no chemical reaction could possibly happen.

But in case of sodium it is highly reactive with water.......... so there will be a chemical reaction.

but as sodium is not a insoluble molecular compound this is not applicable to the situation.

Answer:

This is a limitation of the kinetic-molecular theory.

Explanation:

Answer:

i think its f because my teacher have been talking about this

Explanation:

Answer:

f

Explanation:

Answer:

CO2 is a green house gas

Explanation:

CO2 is believed to act as a canopy over the earth's surface absorbing infrared (heat ray) from the earth and re-emitting it  back to the earth.

By so doing, temperature is increased and more frozen CO2 will defrost causing even greater temperature rise.

The gradual rise in the earth's temperature is known as global warming.

Answer:

C₂ = 0.60 M

Explanation:

Step 1: Given data

Step 2: Calculate the concentration of the diluted dextrose solution

We will use the dilution rule.

C₁ × V₁ = C₂ × V₂

C₂ = C₁ × V₁ / V₂

C₂ = 1.0 M × 15 mL / 25 mL

C₂ = 0.60 M

Answer:Weathering Erosion & Deposition

Changes in shape, size, and texture of land-forms (i.e. mountains, riverbeds, and beaches)

Landslides.

Buildings, statues, and roads wearing away.

Soil formation.

Washes soil, pollutants, harmful sediments into waterways.

Causes metals to rust.

Reduces beaches, shorelines.

Delta formation.

Explanation:

195 g×

1 mol

Ni(OH)

2

92.71

g Ni(OH)

2

×

6.022×

10

23

formula units

mol

=1.27×

10

24

formula units of Ni(OH)

2

Since there are  

5

atoms—one  

Ni

atom, two atoms of  

O

and two atoms of  

H

—in each formula unit of  

Ni(OH)

2

,

we multiply the number of formula units calculated above by  

5

:

1.27×

10

24

formula units of Ni(OH)

2

×

5 atoms

formula unit of Ni(OH)

2

=6.33× 10^ 24  total atoms  

The number of total atoms in 195 grams of [tex]Ni(OH)_2[/tex]  is[tex]6.30\times 10^{24}[/tex] atoms

Explanation:

Given:

The 195 grams of nickel(II) hydroxide,[tex]Ni(OH)_2[/tex] .

To find:

The total number of atoms in 105 grams of nickel(II) hydroxide.

Solution:

The mass of nickel(II) hydroxide = 195 g

The molar mass of nickel(II) hydroxide = 92.708 g/mol

The moles of nickel(II) hydroxide:

[tex]=\frac{195 g}{92.708 g/mol}=2.10 mol[/tex]

According to the mole concept:

1 mole =[tex]N_A=6.022\times 10^{23} mol^{-1}[/tex]

The number of molecules of nickel(II) hydroxide =

[tex]N=2.10 mol\times 6.022\times 10^{23} mol^{-1} =1.26\times 10^{24} molecules[/tex]

In 1 molecule of nickel(II) hydroxide there is 1 nickel atom, then in N molecules of nickel(II) hydroxide:

[tex]=1\times 1.26\times 10^{24} atom=1.26\times 10^{24} atoms[/tex]

In 1 molecule of nickel(II) hydroxide there are 2 oxygen atoms, then in N molecules of nickel(II) hydroxide:

[tex]=2\times 1.26\times 10^{24} atom=2.52\times 10^{24} atoms[/tex]

In 1 molecule of nickel(II) hydroxide there are 2 hydrogen atoms, then in N molecules of nickel(II) hydroxide:

[tex]=2\times 1.26\times 10^{24} atom=2.52\times 10^{24} atoms[/tex]

The total number of atoms:

[tex]=1.26\times 10^{24} atoms+2.52\times 10^{24} atoms+2.52\times 10^{24} atoms=6.30\times 10^{24} atoms[/tex]

The number of total atoms in 195 grams of [tex]Ni(OH)_2[/tex]  is[tex]6.30\times 10^{24}[/tex] atoms.

Learn more about the mole concept here:

brainly.com/question/10165629?referrer=searchResults

brainly.com/question/13314627?referrer=searchResults

Answer:

+2

Explanation:

All the alkaline earth metals have 2 valence electrons in their valence shell. Therefore, they lose 2 electrons to form cations with a +2 charge. For example, Mg²⁺.

Hope that helps.

Answer: Ability to Burn

Explanation: I TOOK THE TEST