Answer:
The correct answer is option D.
Explanation:
5 g/gal to [tex]oz/m^3[/tex]
[tex]1 gal = 0.00378541 m^3[/tex]
[tex]1 oz = 28.3495 g[/tex]
[tex]\frac{5g}{1 gal}\times \frac{1 gal}{0.00378541 m^3}\times \frac{1 m^3}{28.3495 g}=45.59 [/tex] unitless (not possible)
Common unit present in denominator and numerator will get cancelled.
[tex]\frac{5g}{1 gal}\times \frac{1 gal}{0.00378541 m^3}\times \frac{1 oz}{28.3495 g}=46.59 oz/m^3[/tex]
The error in the conversion was instead of [tex]1 m^3[/tex] 1 oz should be written.
The correct answer is D.
The conversion of 5 g/gal to oz/m^3 is as follows:-
Given:-1 gal = 0.00378541 m^3
1 oz = 28.3495 g
Accoring to sue:-
[tex]\frac{5\ g}{1\ gal} \times\frac{1\ gal}{0.00378541\ m^{3} }\times\frac{1\ m^{3}}{28.3495\ g} \\=45.59[/tex]
Common units present in numerator and denominator will get canceled.
The correct conversion is as follows:-
[tex]\frac{5\ g}{1\ gal} \times\frac{1\ gal}{0.00378541\ m^{3} }\times\frac{1\ oz}{28.3495\ g} \\=45.59\ oz/m^{3}[/tex]
The error in the conversion was instead of [tex]1\ m^{3}[/tex], 1 oz should be written.
To know more about:-
https://brainly.com/question/13060762
which source is most likely an authority on the subject
Answer:
Dr. Patel, a cardiologist, presents her findings on heart disease
Explanation:
Construct a pair of conversion factors that relate moles of S to moles of Al2 (SO4)3.
Explanation:
First conversion factor: moles of SO₄ per mole of Al₂(SO₄)₃.
3 mol SO₄ / mol Al₂(SO₄)₃
Second conversion factor: moles of S per mole of SO₄.
1 mol S / mol SO₄
Altogether:
(3 mol SO₄ / mol Al₂(SO₄)₃) × (1 mol S / mol SO₄) = 3 mol S / mol Al₂(SO₄)₃
To relate moles of S to moles of Al2(SO4)3, we use the compound's 2:3 ratio to establish that 1 mole of Al2(SO4)3 has 3 moles of S. Conversion factors are 1 mole Al2(SO4)3/3 moles S and 3 moles S/1 mole Al2(SO4)3. These allow for conversions between the moles of the two substances.
Explanation:To construct a pair of conversion factors that relate moles of S to moles of Al2(SO4)3, we need to look at the chemical compound's formula. The compound aluminum sulfate, Al2(SO4)3, shows there are three sulfate (SO42-) ions for every two aluminum (Al3+) ions.
This indicates a 2:3 ratio between Al and SO4 in the compound. Each sulfate ion contains one atom of sulfur (S), so for every mole of Al2(SO4)3, there are three moles of sulfur atoms (S). Thereby, the conversion factors are:
1 mole Al2(SO4)3 / 3 moles S3 moles S / 1 mole Al2(SO4)3These factors can be used to convert moles of sulfur to moles of aluminum sulfate and vice versa.
(As) in noble-has notion
Answer:
[Ar] 4s2 3d10 4p3
Explanation:
Arsenic is Element 33. It is the 15th element in the Fourth Row, following the noble gas Ar at the end of the Third Row.
Thus, its noble gas electron configuration is
[Ar] 4s2 3d10 4p3
Topic 1: Significant Figures
1. Determine the number of significant figures in each of the following:
a. 0.7540
b. 12500
c. 10000.01
d. 1200
e. 1.04 * 103
f. 0.0080050
These are 6 questions and 6 answers, each with its explanation.
Answer:
a. 0.7540: 4 significant figures.b. 12500: 3 significant figures.c. 10000.01: 7 significant figures.d. 1200: 2 significant figures.e. 1.04 * 103: 3 significant figures.f. 0.0080050: 5 significant figures.Explanation:
a. 0.7540
When there are not digits (non-zero digits) before the decimal point, the significant digits are all the decimal digits from the first non-zero decimal. So, in this case, they are all the shown digits: 7, 5, 4, and 0, i.e. 4 significant figures.
b) 12500
When there is not decimal point, the significant digits include all the digits before only zeros appear. So, they are 1, 2, and 5, i.e. 3 significant figures.
When it is meant that all the digits are significan, a perod must be added, in this way: 12500. The last point is part of the number, it does not add value, but indicates that all the digits are significant.
c) 10000.01
This is the only number from the list with both decimal and non-decimal digits.
When there are digits before and after the decimal point, the significant digits include all the digits before the decimal point and all the decimal digits. So they are 1, 0, 0, 0, 0, 0, and 1, i.e. 7 significant digits.
d) 1200
Again, when there is not decimal point, the significant digits include all the digits before only zeros appear. So, they are 1 and 2, i.e. 2 significant figures.
The two last zeros do not count as significant digits. If the number were written 1200., i.e. showing a decimal point but without digits after the decimal point, then all the four digits were singnificant.
e) 1.04 × 10⁴
This number is written in scientific notation.
The numbers before the power of 10 are called mantissa.
For a number written in scientific notation, the significant digits are the digits in the mantissa, i.e. 1.04. So, the number of significant digits is 3 (1, 0, and 4).
f) 0.0080050
For a number with only decimal digits (there are not digits with value before the decimal point), the zeros after the decimal point and before the first non-zero digit do not count as significant figures. So, the significant figures are: 8, 0, 0, 5, and 0, i.e. 5 significant figures.
Total these measurements. Your answer should indicate the proper accuracy.
Your answer should indicate the proper precision (correct number of significant figures).
8.32 cm
8.00 cm
8.30 cm
8.3 cm
Answer:
Total of all numbers added with the correct rounding and number of significant figures
Explanation:
1. Add up all the numbers
8.32+8.00+8.30+8.3
2. Determine how many significant figures should be in your final answer. When it comes to addition, it will be the fewest number of decimal places. since 8.3 has one decimal place, your final answer should only have one decimal place.
3. Round your final answer to the nearest tenths
Give the numbers that we have to add up.
The atomic particles given off as a result of nuclear fusion are?
Answer:
Gamma Radiation maybe
Explanation:
The atomic particles given off as a result of nuclear fission are Beta and Alpha particles, so the only thing left is gamma radiation.
I hope this helps, and as always, I am joyous to assist anyone at any time.
Define Aqua regia and write a short note on it
Answer:
Explanation:
Aqua regia is a strong and very concentrated acid formed by mixing Hydrochloric acid(HCl) and nitric acid.
The acid is very corrosive due to its formulation and it nearly reacts to dissolve all substances including the unreactive gold metal. It is formed by mixing the two acids in a proportion of 1:3, i.e HCl in 3 parts and nitric acid in 1 part.
The mixture dissolves a wide range of metals
Which of the following is a chemical property of a base?
A) slippery feel
B) conducts an electric current
C) turns red litmus paper blue
D) forms hydronium ions in water
Answer:
D) forms hydronium ions in water
Explanation:
Texture and conductivity are physical properties which makes answer A and B wrong. Answer C does not refer to a chemical reaction.
Which of the following is an example of how chemicals make our lives easier?
Answer:
B. Chemicals can keep bread fresher longer.
Explanation:
I checked the label of my bread :)) and I found one ingredient which keep the freshness:
ascorbic acoid (vitamin C) - it has antioxidant properties
Answer:
Chemicals can keep bread fresher longer.
Which of the following happens during a lunar eclipse?
A: Earth casts a shadow on the moon.
B: The moon casts a shadow on Earth.
C: Earth stops revolving in its orbit.
D: Earth starts revolving around the moon.
Answer:
The answer is A: Earth casts a shadow on the moon.
Explanation:
A lunar eclipse occurs when the earth passes between the sun and the moon, and the three of them are aligned. As the light of the moon that we see from the earth is actually the reflection of the sun's rays on it, when the earth is between the moon and the sun, it doesn't let the sun's rays to reach the moon, so what we see is the shadow of the earth over the moon.
what is the name of an ion with a positive charge
Answer:
cation
Explanation:
Answer:
Cation
Explanation:
Cation is the name of an ion with a positive charge.
Cation is made electron loss.
Also, it means atoms forced into position or gained.
How much energy is required to melt 13.00 kg of ice at 273 K? The specific latent heat of fusion of ice is 3.36 x 10^5 J kg-1.
A. 1.19 x 10^9 J
B. 2.58 x 10^4 J
C. 4.37 x 10^6 J
D. 1174.83 J
You use the information given by the question about latent heat of fusion of ice and construct the following reasoning:
if you need 3.36 × 10⁵ J to melt 1 kg of ice
then you need X J to melt 13 kg of ice
X = (13 × 3.36 × 10⁵)/1 = 43.68 × 10⁵ J = 4.368 × 10⁶ J ≈ 4.37 × 10⁶ J
Answer : The amount of heat required is, (C) [tex]4.37\times 10^6J[/tex]
Explanation :
Formula used :
[tex]q=L\times m[/tex]
where,
q = heat required = ?
L = specific latent heat of fusion of ice = [tex]3.36\times 10^5J/kg[/tex]
m = mass of ice = 13.00 kg
Now put all the given values in the above formula, we get:
[tex]q=(3.36\times 10^5J/kg)\times (13.00kg)[/tex]
[tex]q=4.37\times 10^6J[/tex]
Therefore, the amount of heat required is, [tex]4.37\times 10^6J[/tex]
What structural feature is indicated by the suffix -ene in the name of a hydrocarbon
a double bond between carbon atoms
a ring of carbon atoms
a triple bond between carbon atoms
a branched carbon chain
Answer:
A double bond between carbon atoms
Explanation:
The suffix -ene is used for alkenes, which tells you that the molecule has a carbon-carbon double bond.
What is the oxidation state of cr in CrPO4 and Cr3(PO4)2?
Answer:
Explanation:
Oxidation state of Cr in CrPO₄
As a general rule, the algebraic sum of all the oxidation numbers of all atoms in a neutral compound is zero.
The compound above is in its neutral state and we sum all the oxidation numbers and equate to zero:
The oxidation number of P is -2
O is -2
Let the oxidation number of Cr be x:
x + (-2) + 4(-2) = 0
x -2-8 = 0
x -10 = 0
x = +10
For Cr in Cr₃(PO₄)₂
Using the same rule:
2(x) + 2[-2 + 4(-2)] = 0
2x + 2(-2-8) = 0
2x -20 = 0
x = +10
Answer:
[tex]CrPO_4: Cr +3\\Cr_3(PO_4)_2: Cr+2[/tex]
Explanation:
[tex]CrPO_4[/tex] and [tex]Cr_3(PO_4)_2[/tex] are compounds known as ternary salts
This means that they are formed by a metal or a non-metal and an anion
Its formula is [tex]M_x(X_yO_z)_w[/tex], that is, the cation is written first and then the anion and the simplified charges are exchanged if possible.
The anion [tex]PO_4[/tex] has a load of -3: [tex]PO_{4}^{-3}[/tex]
Let's look at the first compound [tex]CrPO_4[/tex] we observe that when exchanging the charges 3 of the[tex]PO_4[/tex] does not appear therefore the charges are simplified as the charges are completely simplified, it means that the chromium has the same valence (numerically but with opposite sign) that the anion
Therefore the oxidation state of Cr in [tex]CrPO_4[/tex] is +3
Let's look at the second compound [tex]Cr_3(PO_4)_2[/tex], it is observed that when exchanging the valences, the 3 of the [tex]PO_4[/tex] is with the chromium, and with the anion is 2
As valencia are not multiples, they cannot be simplified.
When exchanging the valences, the[tex]PO_4[/tex] has the valence corresponding to the chromium which in this case is + 2
The initial activity of 37Ar is 8540 disintegrations per minute. After 10.0 days, the activity is 6990 disintegrations per minute. what is the activity after 47.2 days?
Answer:
Approximately 3318 disintegrations per minute.
Explanation:
The activity [tex]A[/tex] of a radioactive decay at time [tex]t[/tex] can be found with the following equation:
[tex]\displaystyle A(t) = A_0 \cdot \mathrm{e}^{-\lambda\cdot t}[/tex].
In this equation,
[tex]\mathrm{e}[/tex] is the natural base. [tex]\mathrm{e}\approx 2.71828[/tex].[tex]A_0[/tex] is the initial activity of the decay. For this question, [tex]A_0 = \rm 8540\; min^{-1}[/tex].The decay constant [tex]\lambda[/tex] of this sample needs to be found.The decay constant here can be found using the activity after 10 days. As long as both times are in the same unit (days in this case,) conversion will not be necessary.
[tex]A(10) = A_0\cdot \mathrm{e}^{\rm -\lambda \times 10\;day}= (\mathrm{8540\; min^{-1}})\cdot \mathrm{e}^{\rm -\lambda \times 10\;day}[/tex].
[tex]A(10) = \rm 6690\; min^{-1}[/tex].
[tex]\displaystyle \frac{\rm 6690\; min^{-1}}{\mathrm{8540\; min^{-1}}} = \mathrm{e}^{\rm -\lambda \times 10\;day}[/tex]
Apply the natural logarithm to both sides of this equation.
[tex]\displaystyle \ln{\left(\frac{\rm 6690\; min^{-1}}{\mathrm{8540\; min^{-1}}}\right)} = \ln{\left(\mathrm{e}^{\rm -\lambda \times 10\;day}\right)}[/tex].
[tex]\displaystyle \rm -\lambda \cdot (10\;day) = \ln{\left(\frac{\rm 6690\; min^{-1}}{\mathrm{8540\; min^{-1}}}\right)}[/tex].
[tex]\displaystyle \rm \lambda= \rm \frac{\displaystyle \ln{\left(\frac{\rm 6690\; min^{-1}}{\mathrm{8540\; min^{-1}}}\right)}}{-10 \; day} \approx 0.0200280\; day^{-1}[/tex].
Note that the unit of the decay constant [tex]\lambda[/tex] is [tex]\rm day^{-1}[/tex] (the reciprocal of days.) The exponent [tex]-\lambda \cdot t[/tex] should be dimensionless. In other words, the unit of [tex]t[/tex] should also be days. This observation confirms that there's no need for unit conversion as long as the two times are in the same unit.
Apply the equation for decay activity at time [tex]t[/tex] to find the decay activity after 47.2 days.
[tex]\displaystyle \begin{aligned}A(t)& = A_0 \cdot \mathrm{e}^{-\lambda\cdot t}\\&\approx \rm \left(8540\; min^{-1}\right)\cdot \mathrm{e}^{-0.0200280\; day^{-1}\times 47.2\;day}\\&\approx \rm 3318\; min^{-1}\end{aligned}[/tex].
By dimensional analysis, the unit of activity here should also be disintegrations per minute. The activity after 47.2 days will be approximately 3318 disintegrations per minute.
How many moles of CO2 are produced when 45.0g of C6H6 react completely in the following equation? 2C6H6+ 15O2 → 12CO2 + 6H2O
The answer is in the photo
Answer : The moles of [tex]CO_2[/tex] produced are, 3.462 moles.
Explanation : given,
Mass of [tex]C_6H_6[/tex] = 45.0 g
Molar mass of [tex]C_6H_6[/tex] = 78 g/mole
First we have to calculate the moles of [tex]C_6H_6[/tex].
[tex]\text{Moles of }C_6H_6=\frac{\text{Mass of }C_6H_6}{\text{Molar mass of }C_6H_6}=\frac{45.0g}{78g/mole}=0.577moles[/tex]
Now we have to calculate the moles of [tex]CO_2[/tex]
The given balanced chemical reaction is,
[tex]2C_6_H6+15O_2\rightarrow 12CO_2+6H_2O[/tex]
From the balanced chemical reaction, we conclude that
As, 2 moles of [tex]C_6H_6[/tex] react to give 12 moles of [tex]CO_2[/tex].
So, 0.577 moles of [tex]C_6H_6[/tex] react to give [tex]\frac{12}{2}\times 0.577=3.462[/tex] moles of [tex]CO_2[/tex].
Therefore, the moles of [tex]CO_2[/tex] produced are, 3.462 moles.
(10 points) Please help asap!!
Answer:
1-3 2-2 3-1
Explanation:
Ob] The electrodes of a fuel cellare in contact with water and all
The electrodes are made of platinum rather than iron.
©
State why iron is not a suitable metal for the electrodes of the cell.
Iron is unsuitable for fuel cell electrodes due to its reactivity and corrosion, whereas platinum is favored for being inert and stable in electrochemical reactions.
Iron is not a suitable metal for the electrodes of a fuel cell because it is reactive and can undergo corrosion, especially when in contact with water, leading to the degradation of the cell's performance. Instead, platinum is often used for electrodes because it is an inert metal that does not react during redox processes. This ensures that the platinum electrodes do not appear in the overall electrochemical reaction of the cell, thus maintaining their integrity and the efficiency of the fuel cell.
determines the type of element an atom is.
The number of neutrons
The number of electrons
o The number of protons
o The number of atoms
Answer: C. The number of protons
Explanation: because when you take or add protons to an element it becomes another element.
What contribution did Niels Bohr make to atomic theory?
A. He performed an experiment that determined the charge of the
electron
B. He made a model of the atom called the plum-pudding model.
C. He discovered that the photoelectric effect was caused by light
shining on metal
D. He made a model of the atom, with electrons circling the nucleus.
Answer: D
Explanation:
Just took the test
Final answer:
Niels Bohr's contribution to atomic theory was his proposal of the Bohr's Model, which introduced the concept of electron orbits and explained the atomic spectrum of hydrogen.
Explanation:
Niels Bohr made significant contributions to atomic theory by proposing a model of the atom in 1913 called the Bohr's Model. This model incorporated Rutherford's planetary model and explained the atomic spectrum of hydrogen. Bohr's model was based on the concept that electrons move around the nucleus in circular orbits at certain allowed radii, and it introduced quantum mechanics principles. However, it is important to note that Bohr's model has been superseded by more accurate and complex models in modern atomic theory.
A mixture of three noble gases has a total pressure of 1.25 atm. The individual pressures exerted by neon and argon are 0.68
atm and 0.35 atm, respectively. What is the partial pressure of the third gas, helium?
Use Py-P+P 2+P3 + +P
O 0.22 am
O 0.33 atm
O 1.03 atm
O 228 atm
Answer:
0.22 atm
Explanation:
The total pressure is the sum of the partial pressures.
P = P₁ + P₂ + P₃
1.25 atm = 0.68 atm + 0.35 atm + P
P = 0.22 atm
Answer:
0.22 atm
Explanation:
First, you need to add up each of the values of the known gases
0.68+0.35
Then you need to subtract that value from the total pressure to find the partial pressure of the third value
1.25-(0.68+0.35)
By doing that you get the answer of 0.22 atm
a student adds 3.5 moles of solute to enough water to make a 1500mL solution. what is the concentration?
The answer is:
[tex]MolarConcentration=\frac{3.5moles}{volume(1.5L)}=2.33molar[/tex]
Why?Since there is not information about the solute but only its mass, we need to assume that we are calculating the molar concentration of a solution or molarity. So, need to use the following formula:
[tex]MolarConcentration=\frac{mass(solute)}{volume(solution)}[/tex]
Now, we know that the mass of the solute is equal 3.5 moles and the volume is equal to 1500 mL or 1.5L
Then, substituting into the equation, we have:
[tex]MolarConcentration=\frac{3.5moles}{1.5L}=2.33molar[/tex]
Have a nice day!
Hey there!:
Molarity, molar concentration, concentration in mol/L or concentration in quantity of matter is the ratio of the amount of matter of the solute (mol) by the solution volume (in liters), expressed in the Unit mol/L (molar).
Number of moles = 3.5 moles
1 L = 1000 mL
Volume in liters = 1500 mL / 1000 => 1.5 L
Therefore:
Molarity = number of moles / Volume in liters:
Molarity = 3.5 / 1.5
Molarity = 2.333 M
Hope this helps!
12. A large recipe calls for 250 quarts of milk. What is
this in cm3?
Answer:
236588 cm3
Explanation:
If a large recipe calls for 250 quarts of milk, there are 236588 cm3.
Multiply the volume value by 946.353
what is the concentration (M) of a solution with a pH of 9.52 ?
Answer:
[H⁺] = 3.02 x 10⁻¹⁰M
Explanation:
Given parameters:
pH of the solution = 9.52
Unknown:
Concentration of the solution
Solution
There is a relationship between the pH and concentration of a solution.
pH = -log₁₀[H⁺]
The unknown here is [H⁺],
Now making it the subject of the formula
[H⁺] = Inverse log₁₀(-pH)
[H⁺] = Inverse log₁₀(-9.52)
[H⁺] = 3.02 x 10⁻¹⁰M
Point
Which solution is an example of a nonelectrolyte?
O
A. Sodium nitrate in water
O
B. Hydrogen chloride in water
C. Acetic acid in water
D. Iodine in hexane
SUBMIT
Answer:Iodine in hexane
Explanation:
An electrolyte is a solution that decomposes upon passage of direct current. An electrolyte must contain ions that dissociate under the influence of external direct current. Solution of ionic substances in polar solvents produce good electrolytes such as a solution of NaCl in water. However, a solution of a nonpolar substance such as iodine in a nonpolar solvent such as hexane is not an not electrolyte. Such solutions contain no ions and do not interact with direct current.
Nonelectrolytes are substances that don't ionize in water and don't conduct electricity. An example is Iodine in hexane because when it is dissolved, it does not produce ions contrary to other given examples which are electrolytes.
Explanation:Nonelectrolytes are substances that don't ionize in water and therefore don't conduct electricity. An example of a nonelectrolyte solution would be Iodine in hexane (D). This is because when iodine is dissolved in hexane, it doesn't produce ions. Other examples given, Sodium nitrate in water (A), Hydrogen chloride in water (B), and Acetic acid in water (C) are all examples of electrolytes because they produce ions when dissolved in water.
Learn more about Nonelectrolytes here:https://brainly.com/question/36540753
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How many electrons that may bank in 1.6 g of methane
Answer:
6.022 x 10^23
Explanation:
There are 6.022 x 10^23 electrons that may bank in 1.6 g of methane.
10×6.023×10²²
6.023 ×10²³
Answer:
6.02 × 10^23
Explanation:
Number of moles of methane = 1.6/16 = 0.1
In one mole there are 6.02 × 10^23 atoms
Thus, in 0.1 mole there are 0.1 ×6.02 × 10^23 atoms =6.02 × 10^22 atoms
Hence total number of electrons = number of electrons present in CH4 × atoms present in 0.1 mole.
=10×6.02 × 10^22 =6.02 × 10^23
What is one example of the use of an infrared sensor?
A. Information is relayed to a visually impaired individual about the location of objects.
B. Detecting the presence of humans trapped under collapsed buildings.
C. Bar code scanner tracks store inventory
D. Monitoring feed for farm animals to keep them healthy.
Answer: B. Detecting the presence of humans trapped under collapsed buildings.
Explanation: Infrared sensors are also capable of measuring the heat being emitted by an object and detecting motion. Infrared technology is found not just in industry, but also in every-day life. Televisions, for example, use an infrared detector to interpret the signals sent from a remote control.
What is the most appropriate way to present the data below?
Week
2
3
4
Plant Mass (g)
22
61
87
123
O bar graph
O chart
line graph
O pie graph
Mark this and return
Save and Exit
Next
Answer:
Its not bar graph
Explanation:
Answer:
C- Line Graph
Explanation:
How are the frequency and energy of an electromagnetic wave related? (2 points) As frequency increases, energy increases As frequency increases, energy decreases Energy remains constant as frequency changes Energy and frequency are not related
Answer:
As frequency increases, energy increases
Explanation:
The energy of electromagnetic waves increases as frequency increases. It is the wavelength that decreases when the energy of electromagnetic waves increases.
We can say a direct relationship exists between frequency and energy of electromagnetic waves.
The high energy waves in an electromagnetic spectrum are x-rays, ultraviolet rays etc. These waves also have a high frequency.
Frequency is the number of waves that passes a particular point per seconds. The more the frequency or the number of waves passing through, the more energy it is able to produce and release.
b. What is the standard potential for the cell? (2 points)
Answer:
Explanation:a cells state potential of the cell is the standard state conditions 1 mole per liter (1 m) and pressure of atmospheric 25oC