A 125 g compound consists of 37% oxygen? What is the mass of oxygen in this compound?

Answer:

B: Fe3+

Explanation:

Usually in oxidation reactions, the oxidation number of a monatomic ion is the same as the charge on the ion, for example: oxidation number for Na^(+) is +1 , while in S^(2-), oxidation number is -2.

Now, from the activity series of metals in aqueous solution which I attached, we will see that iron (Fe) is easily oxidized than Nickel (Ni2+) and hydrogen (H+).

So we are left with Fe^(2+) and Fe^(3+).

Now, an increase in oxidation number means the more likely to be oxidized.

Thus, Fe^(3+) is the most easily oxidized.

Answer:

In the electrolysis of water the gases collected in anode is oxygen and in cathode is hydrogen.

It is because water contains two molecules as compared to one molecules of oxygen.

If Dil.H,So, is not added in water then water doesn't conduct electricity.

Please make me brainiest answer

Answer:

the answer is 211106 is better than anything else about u and then let's go play with kids like that first time in the class ohh ok

Answer: 5.13

Explanation: juss do it

Taking into account the definition of calorimetry, the water has absorbed 39,501 J.

Calorimetry is the measurement and calculation of the amounts of heat exchanged by a body or a system.

Sensible heat is defined as the amount of heat that a body absorbs or releases without any changes in its physical state (phase change).

So, the equation that allows to calculate heat exchanges is:

Q = c× m× ΔT

where Q is the heat exchanged by a body of mass m, made up of a specific heat substance c and where ΔT is the temperature variation.

In this case, you know:

Replacing in the definition of calorimetry:

Q = 4.18 [tex]\frac{J}{gC}[/tex]× 450 g× 21 C

Solving:

Q= 39,501 J

Finally, the water has absorbed 39,501 J.

Learn more about calorimetry:

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Answer:

10%

Explanation:

The percent by volume of acetone is given by the following formula:

% v/v = Volume of acetone / Total Volume * 100%

Now we calculate the total volume of the solution:

Total Volume = Volume of Acetone + Volume of Water

Total Volume = 50 mL + 450 mL = 500 mL

Then we calculate the percent by volume:

% v/v = 50 mL / 500 mL * 100 % = 10%

Answer:

The term biodiversity (from “biological diversity”) refers to the variety of life on Earth at all its levels, from genes to ecosystems, and can encompass the evolutionary, ecological, and cultural processes that sustain life.

or if you want a short answer:

The term “biodiversity” refers to the variety of living organisms.

Answer:

the term bioverisidy refer to the veriety of life on earth at all its levels from genes to ecosystem and ecompass the evolutionary ecological and cultural prosesses that sustain life

Answer:

9.493 e-01

Explanation:

Given that Titan's temperature at thermal equilibrium = 100 K

Determine the fraction of the atmosphere that is methane

at an altitude of 2 km

applying Ideal gas law

P = Po e^ -Z/k ---- ( 1 )

In this question Z  = M₀ g z  ( replace -Z in  equation 1 with M₀gz )

P = Po e^- M₀gz / RT ------ ( 2 )

where : Mo = 16 * 10^ -3 kg/mol , g = 1.35 m/s^2 , z = 2 * 10^3 m , R = 8.3 J/mol.k , T = 100 k

insert values Back to equation 2

P = Po e^-0.052

P = 0.9493 Po

hence the fraction of the atmosphere that is methane

= P / Po = 9.493 * 10^-1

= 9.493 e-01

Answer: D.

Explanation:

6.02 * 10^-23

Answer:

Compounds are represented by chemical formulas. Elements in a compound are represented by chemical symbols, and the ratio of different elements is represented by subscripts.

Answer:

0.145 moles de AlBr3.

Explanation:

¡Hola!

En este caso, al considerar la reacción química dada:

Al(s)+Br2(l)⟶AlBr3(s)

Es claro que primero debemos balancearla como se muestra a continuación:

2Al(s)+3Br2(l)⟶2AlBr3(s)

Así, calculamos las moles del producto AlBr3 por medio de las masas de ambos reactivos, con el fin de decidir el resultado correcto:

[tex]n_{AlBr_3}^{por\ Al}=4.00gAl*\frac{1molAl}{27gAl} *\frac{2molAlBr_3}{2molAl}=0.145mol AlBr_3\\\\n_{AlBr_3}^{por\ Br_2}=42.00gr*\frac{1molr}{160g Br_2} *\frac{2molAlBr_3}{3molBr_2}=0.175mol AlBr_3[/tex]

Así, inferimos que el valor correcto es 0.145 moles de AlBr3, dado que viene del reactivo límite que es el aluminio.

¡Saludos!

Answer: its D 12 grams

Explanation: you just have to find the molar mass of carbon in the periodic table

Answer:

I'd 9 Coz is better than anything else I help so u need to other people that question don't be jealous of them

Answer: Infusion time is 5.5 h

Explanation:   Time is   470 ml / 85 ml/h =  5.5 h

Explanation:

When citric acid and baking soda react with one another, they change chemi- cally and form sodium ions, citric acid ions, carbon dioxide gas, and water. ... It also makes up the bubbles in carbonated drinks and is a gas we naturally exhale. Carbon dioxide gas is safe in the quantities produced in the activities.

Answer: There are 0.373 kJ in 373 joules.

Explanation:

According to the standard conversion units 1 kJ is equal to 1000 J. This means that 1 J is equal to 0.001 kJ.

Hence, 373 joules is converted into kilojoules as follows.

[tex]1 J = 0.001 kJ\\373 J = 373 J \times \frac{0.001 J}{1 kJ}\\= 0.373 kJ[/tex]

Thus, we can conclude that there are 0.373 kJ in 373 joules.

Answer: The answer might be A or B.

Explanation:

Answer:

they would benefit

Explanation:

they would benefit because we can move more machines that reduce pollution in those countries.

Answer:

B

Explanation:

Answer:

A

Explanation: got it right

Answer:

B part is the correct answer

Answer:

102 mol Fe(OH)₃

Explanation:

The reaction that takes place is:

First we calculate how many Fe₂(SO₄)₃ moles reacted, using the given concentration and volume:

Then we convert Fe₂(SO₄)₃ moles into Fe(OH)₃ moles, using the stoichiometric coefficients of the reaction:

Answer:

80 day= 15 men

Explanation:

1 man takes = 80*15 = 1200 days

20 men take = 1200/20= 60 days

Answer:

80 days=15 men

Explanation:

hope it helps❣️

Answer:

V = 0.0327 L.

Explanation:

Hello there!

In this case, according to the given information, it turns out possible for us to calculate the liters of C3H6O by the definition of density. We can tell the density of this substance as that of acetone (0.784 g/mL) and therefore calculate the liters as shown below:

[tex]V=25.6g*\frac{1mL}{0.784g}*\frac{1L}{1000mL}\\\\V=0.0327L[/tex]

Regards!

Answer:

The answer is "[tex]0.157\ L[/tex]"

Explanation:

Please find the complete question in the attached file.

[tex]M_1=13.5\ M\\\\V_1=58.0\ ml\\\\M_2=5.00\ M\\\\[/tex]

Using formula:

[tex]M_1V_1=M_2V_2\\\\V_2 = \frac{(M_1V_1)}{M_2}\\\\[/tex]

    [tex]= \frac{(13.5 \times 58.0)}{5.0}\\\\= 156.6 \ ml\\\\[/tex]

    [tex]= \frac{156.6}{1000}\ L\\\\ =0.157\ L\\\\[/tex]

Answer:

50%

Explanation:

Answer:

CaCl

2

Explanation:

As with all these problems, we assume a  

100

⋅

g

of compound, and divide through by the ATOMIC masses of each component element:

Moles of calcium

=

36.1

⋅

g

40.08

⋅

g

⋅

mol

−

1

=

0.901

⋅

mol

.

Moles of chlorine

=

63.9

⋅

g

35.45

⋅

g

⋅

mol

−

1

=

1.802 mol

.

We divide each molar quantity through by the smallest molar quantity (that of calcium) to give an empirical formula of  

CaCl 2

.

For ionic materials, we do not speak of the molecular formula, and the empirical formula is the formula we quote for reference.

Answer:

Explanation:

False

Answer:

false

Explanation:

took the test

Answer:

790 K

Explanation:

Step 1: Given data

Step 2: Convert 23.0 °C to Kelvin

We will use the following expression.

K = °C + 273.15 = 23.0 + 273.15 = 296.2 K

Step 3: Calculate the final temperature of the gas

Assuming constant pressure and ideal behavior, we can calculate the final temperature of the gas using Charles' law.

T₁/V₁ = T₂/V₂

T₂ = T₁ × V₂/V₁

T₂ = 296.2 K × 32.0 L/12.0 L = 790 K

Answer:

Option C. 13.5 atm

Explanation:

From the question given above, the following data were obtained:

Pressure of Neon (Pₙₑ) = 4.1 atm

Pressure of Argon (Pₐᵣ) = 3.2 atm

Pressure of nitrogen (Pₙ₂) = 6.2 atm

Total pressure (Pₜ) =?

The total pressure in the container can be obtained by adding the pressure of the individual gases. This is illustrated below:

Pₜ = Pₙₑ + Pₐᵣ + Pₙ₂

Pₜ = 4.1 + 3.2 + 6.2

Pₜ = 13.5 atm

Therefore, the total pressure in the container is 13.5 atm

We are given:

Mass of ice = 100 grams

Initial temperature = -50°C

Final Temperature = -10°C

We know that the specific heat of ice is 2.09 joules / (gram * °c)

Heat Absorbed:

We know that:

ΔQ = mcΔT                                                    [where ΔQ is the heat absorbed]

ΔQ = (100 grams)(2.09)(-10 - (-50))

ΔQ = (100)(2.09)(40)

ΔQ = 8360 Joules