Answer:
The pressure in mmHg is 59.
Explanation:
Given data:
Pressure of air inside balloon = 0.78 atm
Pressure in mmHg = ?
Solution:
mmHg:
mmHg is referred as manometric unit of pressure. It is define as the pressure exerted by mercury column at height of one millimeter.
Symbol:
"mmHg"
Atmosphere (atm)
atm is unit of pressure. It is used as a standard unit. It is equal to the 101325 Pa.
1 atm = 760 mmHg
Inorder to convert the atm into mmHg we will multiply the given atm value with 760.
0.78 atm × 760 mmHg / 1 atm = 592.8 mmHg
59 mmHg or 59
are theories incomplete temporary ideas
Answer:
Yes , because they are not yet proven.
Hope this helps-xoxo
Answer:yes
Explanation:ideas are theoris the are incomplete
which of the following molecules has a shape is trigonal pyramid?
ccl4
ch2o
Nh2o
h2o
Nh2o has a trigonal pyramid
Which set of interactions involved in successfully forming a solution must have positive enthalpy changes? View Available Hint(s) Which set of interactions involved in successfully forming a solution must have positive enthalpy changes? only the interaction of solvent molecules as they are attracted to solute particles separating solvent particles in the pure solvent and the interaction of solvent molecules as they are attracted to solute particles separating solute particles in the pure solute and the interaction of solvent molecules as they are attracted to solute particles separating solute particles in the pure solute and separating solvent particles in pure solvent
Answer:
separating solute particles in the pure solute and separating solvent particles in pure solvent
Explanation:
when we talk about a solution, it means the homogeneous mixture of different substances of two or more.
Enthalpy change of solution is the quantity of heat that is released during the process of dissolving.
If solute molecules have been broken from the intermolecular forces that bind them and also solvent molecules have been broken from the intermolecular forces binding them, then we have an endothermic process.
so the answer is:
separating solute particles in the pure solute and separating solvent particles in pure solvent
Name two reagents used during the laboratory preparation of oxygen and write an equation for this reaction.
Answer:
Explanation:
To make oxygen in the laboratory, hydrogen peroxide is poured into a conical flask containing some manganese(IV) oxide. The gas produced is collected in an upside-down gas jar filled with water. As the oxygen collects in the top of the gas jar, it pushes the water out.
An actual measurement of a sample 3.5 M the measured value is 2.5 M what is the percentage error in the measurement
Answer: 29%
Explanation:
Answer:
b 29 percent
Explanation:
In this experiment, you are given 3 unknown metals and will determine their identities by finding their densities. The possible metals are silver, rhodium, and platinum, with densities of 10.5, 12.4, and 21.45 g/cm3 respectively. First, you must determine the mass of a sample of one of the metals. Using the electronic balance, record the mass of the weigh boat. Pour approximately 50 g of the metal onto the weigh boat and record the combined mass. Then, pour approximately 10 mL of distilled water into a 25 mL graduated cylinder, and record the volume of water added. Pour the sample of metal from the weigh boat into the graduated cylinder, and record the combined volume. Take care to always record the volume from the bottom of the meniscus of the water, not the upper curved edges. From this, calculate the density of the metal. Repeat this process two more times for the same metal, using samples of approximately 75 g and 100 g respectively. Using these three data points, calculate the average density of the metal. Repeat this procedure for the other two metals to calculate their average densities. From these, identify the metals by comparing them to the given values of the densities of silver, rhodium, and platinum.
Answer:
Explanation:
This question is a practical question that needs to be practiced in a lab. However, the guide below will assist in answering the question.
Let's assume our unknown metals are X, Y and Z. The unknown metals will be weighed using a weight boat on an electronic balance. Hence, the mass of the weight boat will have to be measured if you do not wish to "tare" the balance when the weight boat is on it - the instruction in the question prefers the former.
Assuming the mass of the weight boat is measured to be 10g (and then recorded), the unknown is added to it until the balance reads 60g.
Hence,
The total mass recorded on the balance = the mass of the weight boat + 50g of the unknown sample.
When the unknown sample is then poured into the 10 ml of water in the 25 ml graduated cylinder, the volume of water will rise. The final volume of the water must be recorded in order to calculate the change in volume.
change in volume = Final volume recorded - 10 ml (volume of water before the sample was added)
Density of the unknown solid = mass of unknown solid (50 g) ÷ change in volume
This process is done three times (and all values recorded) for each metal (X, Y and Z). And the process is also done (three times with all values recorded) with different masses of 75 g and 100 g of the unknown sample.
In order to calculate the average density of each unknown metal, the following can be done.
The average density of unknown metal X of 50g (assuming it's DX₁) = (density obtained after first experiment + density obtained after second experiment + density obtained after third experiment)/3
The average density of unknown metal X of 75g (assuming it's DX₂) = (density obtained after first experiment + density obtained after second experiment + density obtained after third experiment)/3
The average density of unknown metal X of 100g (assuming it's DX₃) = (density obtained after first experiment + density obtained after second experiment + density obtained after third experiment)/3
The average density of metal X = (DX₁ + DX₂ + DX₃)/3
The same calculations (above) is repeated for metals Y and Z.
From the question, platinum has the highest density, followed by rhodium and then silver. Hence, after the experiments and then the calculations, the unknown metal with the highest average density will be assumed to be platinum and the next one will be assumed to be rhodium while the one with the least average density will be assumed to be silver.
A dialysis unit is being designed. It will consist of a large number of small hollow fibers arranged in parallel. Blood will flow inside the fibers, each of which is 30 cm long. It is desired that the hold-up volume (the volume of blood needed to fill all the fibers) should be no more than 80 ml, and that the total pressure drop across the fibers should be no more than 105 dyne/cm2 at a total flow rate of 50 ml/s. If the blood viscosity is 3.5 cP and the density of the blood is 1.05 g/cm3, how many fibers should be used, and of what diameter should they be, so as to meet the design conditions
Answer:
Explanation:
Given information:
A designed dialysis unit consists of a large no of small hollow fibers,
Considering the one fiber,
By using the volume of blood, we have :
[tex]V =\dfrac{\pi}{4}\times D^2 \times L[/tex]
where:
L = 30cm = (30× 10) mm = 300 mm
Volume = 80 ml = 80 × 10³ mm
From the above equation, making D the subject, we have:
[tex]4 V ={\pi}\times D^2 \times L[/tex]
[tex]D^2 =\dfrac{4 V }{{\pi}\times L}[/tex]
[tex]D^2 =\dfrac{4 \times 80 \times 10^3 }{ \pi \times 300}[/tex]
D² = 339.53
[tex]D = \sqrt{339.53}[/tex]
D = 18.43 mm
D = 1.843 cm
However, suppose we consider the laminar flow, the pressure loss in a single fiber can be determined as follows:
[tex]\Delta p = \rho g h_f= \dfrac{32* \mu *\overline u*l }{D^2}[/tex]
where;
[tex]\overline u = \dfrac{4 \times 50 \times 10^3}{\pi \times (18.43)^2}[/tex]
[tex]\overline u = \dfrac{200000}{1067.088755}[/tex]
[tex]\overline u =187.43 \ mm/sec[/tex]
[tex]\overline u =18.743 \ cm/sec[/tex]
Recall:
[tex]\Delta p = \dfrac{32* \mu *\overline u*l }{D^2}[/tex]
[tex]\Delta p = \dfrac{32* 3.5 \times 10^{-2} *18.743*30 }{1.843^2}[/tex]
[tex]\Delta p = \dfrac{629.7648 }{3.396649}[/tex]
[tex]\Delta p =185.41 \ dyne/cm^2[/tex]
Finally, the number of needed to be used = [tex]\dfrac{p}{\Delta p}[/tex]
= [tex]\dfrac{10^5 \ dyne /cm^2}{185.41\ dyne /cm^2}[/tex]
= 539.35
How does geothermal energy differ from solar energy? (3 points)
Geothermal energy is cooler and denser than solar energy.
Geothermal energy comes from the internal heat of Earth.
Geothermal energy is transmitted through the atmosphere.
Geothermal energy results from radiation of electromagnetic waves
Answer:
B: geothermal energy comes from eternal heat of earth.
Explanation:
PLEASE HELP!! 100 pts! There are both public and private crime labs in the United States. In your own words, explain the difference in how these crime labs process
evidence and the benefits and drawbacks of each type. Proper spelling, grammar, and sentence structure are expected!
Answer:
The forensic laboratory system in the United States consists of private and public labs. One well-known public lab is the FBI (the Federal Bureau of Investigation) Public labs are mostly run by police officers and state employees, while private labs are organized as a fee-for-service and they are small with a few large and medium=sized operations.
Explanation:
Idk and it's not even 100 points but I hope this helps.
Write the electron configuration and Noble gas configuration for each element.
1. F
2. CI
3. Br
4. Zr
5. Ga
6. SC
7. Ru
8. Cd
Answer:
1is the answer to that one day F
What happened to the arrangement and the speed of water molecules when liquid water turns into ice?
Answer:
Point out that when water freezes, the water molecules have slowed down enough that their attractions arrange them into fixed positions. Water molecules freeze in a hexagonal pattern and the molecules are further apart than they were in liquid water.
Answer: Point out that when water freezes, the water molecules have slowed down enough that their attractions arrange them into fixed positions. Water molecules freeze in a hexagonal pattern and the molecules are further apart than they were in liquid water.
Explanation: The molecules in the rice would be vibrating!!!!!!
Liquid nitrogen is a very cold fluid form of nitrogen that is capable of freezing objects in very short periods of time. In fact, if a ping pong ball is placed in liquid nitrogen for a few minutes and then dropped on the floor, it shatters like glass.
What type of changes does the ball experience when it is frozen in the liquid nitrogen and then dropped on the floor?
A.
physical changes only
B.
neither physical nor chemical changes
C.
physical and chemical changes
D.
chemical changes only
plz don't give wrong asnwer
Answer:
Answer C physical and chemical
which gases are responsible for global warming?
Answer:
Greenhouse gas Chemical formula Global Warming Potential, 100-year time horizon
Carbon Dioxide
Methane
Nitrous Oxide
Chlorofluorocarbon
Explanation:
A 90-m3 basement in a residence is found to be contaminated with radon coming from the ground through the floor drains. The concentration of radon in the room is 1.5 Bq · L−1 (becquerels per liter) under steadystate conditions. The room behaves as a CMFR, and the decay of radon is a first-order reaction with a decay rate constant of 2.09 × 10−6 s−1. If the source of radon is closed off and the room is vented with radon-free air at a rate of 0.14 m3 · s−1, how long will it take to lower the radon concentration to an acceptable level of 0.15 Bq · L−1?
Answer: it will take 24.6467 min to lower the radon concentration to an acceptable level of 0.15Bq.L^-1
Explanation:
To calculate the required time, we make use of the formula
Cout = Coexp [ - ( 1/θ + k ) t ] .........lets call this equation 1
where Co is the concentration of radon( 1.5Bq.L^-1 ), Cout id the allowable radon concentration( 0.15Bq.L^-1), k is the radon decay rate constant( 2.09 * 10^-6 s^-1 ), θ is the theoretical detention time and t is the time required to lower the radon concentration.
first we find θ which is the theoretical detention time using the expression
θ = _V / Q
_V is the volume of basement (90 m^3) and Q is the rate of free air (0.14 m^3.s^-1)
so we substitute
θ = 90 / 0.14
θ = 642.857 s
Now we substitute all our values into equation 1
Cout = Coexp [ - ( 1/θ + k ) t ]
0.15 = 1.5exp [ - ( 1/642.857 + (2.09 * 10^-6) ) t ]
divide both LHS and RHS by 1.5
0.15/1.5 = exp [ - ( 0.001555 + 0.00000209)t ]
0.1 = exp[ - ( 0.001557)t ]
next we take the natural log of both sides
In 0.1 = In [ exp( -0.001557t )]
-2.3025 = - 0.001557t
t = 2.3025 / 0.001557
t = 1478.8053 sec
so we convert to minutes
t = 1478.8053 / 60
t = 24.6467 min
therefore it will take 24.6467 min to lower the radon concentration to an acceptable level of 0.15Bq.L^-1
Help out 1 and 2, Will mark brainliest !!
Prions are proteins with the ability to generate more prions by causing other proteins to misfold into a similar shape. Since prions are proteins, they have a genetic sequence associated with them and their ability to create more prions allows them to reproduce. Why aren’t prions considered alive?
Which of the following is an inference?
1. the sky is blue.
2. air pollution is responsible for the colors we see during a sunset.
3. when I touch a glass of water with ice it is cold.
4. sugar is sweet.
Answer:
2) is an inference
A solution containing HCI would likely have
a high pH and a low pOH.
a low pH and a high pOH.
a high pH and a high pOH.
a low pH and a low pOH:
Plz help
Answer:
B) A low pH and a high pOH.
Explanation:
Took the quiz.
A student wants to burn a 1.25 mL sample of ethanol (C2H5OH, d = 0.789 g/mL) in a jar containing dry air. Assuming the air in the jar is at standard atmospheric pressure and room temperature (22 °C), what volume will the jar need to be in order to hold enough oxygen for complete combustion? Hint: Refer to the composition of dry air in the previous question. (a) Write a balanced chemical reaction for the combustion of ethanol. (b) Calculate the moles of oxygen needed to completely combust the ethanol. (c) Calculate the partial pressure of oxygen in the jar. (d) Calculate the volume of oxygen (in L) needed in t
Answer:
The volume of the jar needed in order to hold enough oxygen for complete combustion is 24.2 L
(a) C₂H₅OH + 2O₂ -------> 2CO₂ + 3H₂O
(b) The moles of oxygen needed to completely combust the ethanol is 0.0429 moles
(c) The Partial pressure of oxygen is 4346.84 Pa
(d) the volume of oxygen (in L) needed in the jar is 1.038 L
Explanation:
Given;
volume of ethanol, V = 1.25 mL
density of ethanol, ρ = 0.789 g/mL
mass of ethanol, m = ρV = (1.25 mL) x (0.789 g/mL) = 0.986g
The volume of the dry air is calculated as;
[tex]P_d = \rho _d R_d T\\\\P_d = (\frac{M_d}{V_d} )R_d T\\\\V_d = (\frac{M_d}{P_d} )R_d T\\\\V_d = (\frac{0.02897 \ (kg)}{101325 \ (Pa)} )*287 \ (J/K.kg)* 295\ (K)\\\\V_d = 0.0242 \ m^3\\\\V_d = 24.2 \ L[/tex]
(a) a balanced chemical reaction for the combustion of ethanol
C₂H₅OH + 2O₂ -------> 2CO₂ + 3H₂O
(b) The moles of oxygen needed to completely combust the ethanol.
[tex]=0.986 g \ C_2H_5OH *(\frac{1 \ mol \ C_2H_5OH}{46g \ C_2H_5OH} )*(\frac{2 \ Mol \ O_2}{1 \ mol \ C_2H_5OH} )\\\\ = 0.0429 \ mols.[/tex]
(c) the partial pressure of oxygen in the jar
Total pressure of air in the jar, Pt = 101,325 Pa
Partial pressure of oxygen = nPt
= 0.0429 x 101,325 Pa = 4346.84 Pa
(d) the volume of oxygen (in L) needed in the jar
Total volume of air in the jar = 24.2 L
The fraction of this volume by oxygen = 0.0429 mols x 24.2 L = 1.038 L
Dry air is composed of many molecules and compounds. The major quantity of molecules present in the dry air is Nitrogen, followed by oxygen, argon, carbon dioxide and many more. Dry air also has some amount of water vapor in it.
The volume of the jar needed to hold enough oxygen for complete combustion can be calculated by:
Volume of ethanol= 1.25 mlDensity of ethanol = 0.789 g/mlMass of ethanol can be calculated by:= density × volume
= 1.25 ml x 0.789 g/ml
= 0.986 g
The volume of the dry air is calculated by the following:
[tex]\text{P}_d &= \rho_d \text{R}_d \text{T}[/tex]
[tex]\text{P}_d &= \dfrac{{\text M}_d}{\text{V}_d}} \text{R}_d \text{T}[/tex]
[tex]\text{V}_d &= \dfrac{{\text M}_d}{\text{V}_d}} \text{R}_d \text{T}[/tex]
[tex]\text{V}_d &= 0.0242\; m^{3}[/tex]
[tex]\text{V}_d &= 24.2\;\text L[/tex]
Hence, the volume of the dry air is 24.2 L.
a. Balanced chemical equation for the combustion of ethanol can be written as:
C₂H₅OH + 2 O₂ -------> 2 CO₂ + 3H₂O
One molecule of ethanol reacts with two molecules of oxygen to produce two molecules of carbon dioxide and three water molecules.
b. To calculate the moles of oxygen needed for complete combustion of ethanol can be calculated as:
[tex]\begin{aligned}&=0.986g\;\text{C}_2\text{H}_5\text{OH}\times\left(\frac{1\;\text{mol}\;\text{C}_2\text{H}_5\text{OH}}{46\;g\;\text{C}_2\text{H}_5\text{OH}} \right )\times\left(\frac{2\;\text{Mol\;O}_2}{1\;\text{mol}\text{C}_2\text{H}_5\text{OH}} \right )\\&=0.0429\text{mols} \end{aligned}[/tex]
Hence, 0.0429 moles of oxygen will be needed to completely burn ethanol.
c. The partial pressure of the oxygen in the jar can be calculated by the following formula:
Given,
Total pressure of air in the jar (Pt) = 101,325 PaThe partial pressure of oxygen:= nPt
= 0.0429 x 101,325 Pa
= 4346.84 Pa
Hence, the partial pressure of oxygen will be 4346.84 Pa.
d. The volume of oxygen (in L) needed in the jar can be calculated using the volume of the jar.
The total volume of air in the jar = 24.2 LThe fraction of this volume by oxygen:= 0.0429 moles x 24.2 L
= 1.038 L
Therefore, the volume of the jar needed to hold enough oxygen for complete combustion is 24.2 L.
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Draw what comes to mind when you think of the word "atom."
Answer:
I think of when I hear the word "atom" I think of the building block of life
Explanation:
"hope this helps"
Lithium (Li) is in the 2nd row, so the 1st row is already full (1s2). Since lithium (Li) is in the 2nd row, the s-block, and the 1st column of that block, the electron configuration of lithium (Li) is
The electronic configuration of lithium is 1 s² 2s¹ as it has 1 electron in 2 s subshell it is a s-block element.
What is electronic configuration?
Electronic configuration is defined as the distribution of electrons which are present in an atom or molecule in atomic or molecular orbitals.It describes how each electron moves independently in an orbital.
Knowledge of electronic configuration is necessary for understanding the structure of periodic table.It helps in understanding the chemical properties of elements.
Elements undergo chemical reactions in order to achieve stability. Main group elements obey the octet rule in their electronic configuration while the transition elements follow the 18 electron rule. Noble elements have valence shell complete in ground state and hence are said to be stable.
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1)If I mixed salt in water I would expect the salt to:
2) If I mixed starch in water I would expect the starch to:
Answer:
1)If I mixed salt in water I would expect the salt to: dissolve.
2) If I mixed starch in water I would expect the starch to: remain undissolved.
Explanation:
Hello,
In this case, since salt, which is commonly known as sodium chloride (NaCl) is an ionic compound, it is very likely to get dissolved in water, therefore, we would expect the salt to dissolve and form a liquid solution.
Moreover, since start is mainly composed by C-C, C-O and C-H bonds which are nonpolar, it we can say it is usually insoluble in water, therefore we will expect starch to remain undissolved but undergoing a process called gelatinization in which a suspension in formed until a slightly solid consistency.
Best regards.
How many eight-packs of water would you need if 32 people
are attending your part and each consumed 2 bottles of
water?
Answer:
You would need 8 eight packs of water
Explanation:
32 x 2 (seeing as this is the amount of water each person consumes)
= 64 divided by 8 (the amount of water in each pack)
= 8 eight packs of water
What is the pH of an aqueous solution with a hydrogen ion concentration of [H+]=9.2×10−6 M?
Answer:
The answer is 5.04Explanation:
The pH of a solution given it's hydrogen ion concentration can be found by using the formula
[tex]pH = - log( {H }^{ + } ) [/tex]where
[tex]{H }^{ + }[/tex] is the hydrogen ion concentration
From the question
[tex]{H }^{ + }[/tex] = [tex]{9.2 × 10 }^{ - 6}[/tex] M
The pH of the solution is
[tex]pH = - log(9.2 \times {10}^{ - 6} ) \\ = 5.03621217...[/tex]
We have the final answer as
5.04Hope this helps you
Need Help ASAP
Thanks you
Titanium occurs in the magnetic mineral ilmenite (FeTiO3), which is often found mixed up with sand. The ilmenite can be separated from the sand with magnets. The titanium can then be extracted from the ilmenite by the following set of reactions:
FeTiO3(s)+3Cl2(g)+3C(s)→3CO(g)+FeCl2(s)+TiCl4(g)TiCl4(g)+2Mg(s)→2MgCl2(l)+Ti(s)
Suppose that an ilmenite-sand mixture contains 20.2 % ilmenite by mass and that the first reaction is carried out with a 91.6 % yield.
If the second reaction is carried out with an 86.0 % yield, what mass of titanium can be obtained from 1.40 kg of the ilmenite-sand mixture?
Answer:
.222 g
Explanation:
FeTiO3(s)+3Cl2(g)+3C(s) → CO(g)+FeCl2(s)+TiCl4(g)
TiCl4(g)+2Mg(s) → 2MgCl2(l)+Ti(s)
1.40 g of mineral will contain pure ore of .202 x 1.4 g = .2828 g
ilmenite mass = .2828 g of illemnite mass
product after first reaction = .916 x .2828 = .259 g
product after 2 nd reaction = .86 x .259 g
= .222 g
The mass of titanium that can be obtained from 1.40 kg of the ilmenite-sand mixture is 70.27 g
From the question,
We are to determine the mass of titanium can be obtained from 1.40 kg of the ilmenite-sand mixture
Also from the question, we have that
An ilmenite-sand mixture contains 20.2 % ilmenite by mass
That means,
The mass off ilmenite present in the 1.40 kg ilmenite-sand mixture is
= [tex]\frac{20.2}{100} \times 1.40 \ kg[/tex]
[tex]= \frac{20.2}{100}\times 1400 \ g[/tex]
= 20.2 × 14
= 282.8 g
∴ The mass of ilmenite present in the ilmenite-sand mixture is 282.8 g
From the first reaction
FeTiO₃(s) + 3Cl₂(g) + 3C(s) → 3CO(g) + FeCl₂(s) + TiCl₄(g)
We will calculate the mass of TiCl₄ produced
First, we will determine the number of moles of ilmenite (FeTiO₃) present
From the formula
[tex]Number\ of \ moles = \frac{Mass }{Molar\ mass}[/tex]
Molar mass of ilmenite (FeTiO₃) = 151.71 g/mol
∴ Number of moles of ilmenite = [tex]\frac{282.8}{151.71 }[/tex]
Number of moles of ilmenite = 1.864 moles
From the balanced chemical equation in the first reaction
1 mole of ilmenite (FeTiO₃) reacts to produce 1 mole of TiCl₄
∴ 1.864 moles of ilmenite (FeTiO₃) will produce 1.864 moles of TiCl₄
Now, for the mass of TiCl₄ produced
From the formula
Mass = Number of moles × Molar mass
Molar mass of TiCl₄ = 189.679 g/mol
∴ Mass of TiCl₄ = 1.864 × 189.679
Mass of TiCl₄= 353.561656 g
But, from the question,
The reaction has a yield of 91.6%
∴ Mass of TiCl₄ produced = [tex]\frac{91.6}{100} \times 353.561656[/tex]
Mass of TiCl₄ produced = 0.916 × 353.561656
Mass of TiCl₄ produced = 323.8624 g
From the second reaction
TiCl₄(g) + 2Mg(s) → 2MgCl₂(l) + Ti(s)
We will determine the mass of Titanium (Ti) produced
From the balanced chemical equation for the reaction
1 mole of TiCl₄ reacts to produce 1 mole of Titanium (Ti)
The number of moles of TiCl₄ produced in the first reaction is
= 91.6% × 1.864 moles
= 0.916 × 1.864
= 1.7074242 moles
Since
1 mole of TiCl₄ reacts to produce 1 mole of Titanium (Ti)
∴ 1.707424 moles of TiCl₄ will react to produce 1.707424 moles of Titanium (Ti)
But, from the question
The yield of the second reaction is 86.0%
∴ The number of moles of Titanium (Ti) produced is [tex]\frac{86.0}{100}\times 1.707424[/tex]
Number of moles of Ti produced = 0.86 × 1.707424
Number of moles of Ti produced = 1.468 moles
Now, we will determine the mass of Titanium (Ti) produced
From the formula
Mass = Number of moles × Molar mass
Molar mass of Titanium = 47.867 g/mol
∴ Mass of Titanium produced = 1.468 × 47.867
Mass of Titanium produced = 70.27 g
Hence, the mass of titanium that can be obtained from 1.40 kg of the ilmenite-sand mixture is 70.27 g
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When matter changes from a solid to liquid or from liquid to gas, what kind of change takes place?
Answer :-
Physical change
(Exercise 5.2.14 modified) A common method used to produce bleach (sodium hypochlorite) is by the reaction Cl2 + 2NaOH NaCl + NaCl + H2O. Chlorine gas is bubbled through an aqueous solution of sodium hydroxide, after which the desired product is separated from the NaCl (by product). A water-NaOH solution that contains 1200 lb of pure NaOH is reacted with 800 lb of gaseous Cl2. The NaOCl formed weighs 600 lb. a. What was the limiting reactant
Answer:
Chlorine is limiting reactant
Explanation:
Based on the reaction:
Cl₂ + 2NaOH → NaClO + NaCl + H₂O
1 mole of chlorine reacts with 2 moles of NaOH
To find limiting reactant, we need to determine the moles of the reactants:
Moles Cl₂ -Molar mass: 70.9g/mol-:
800lb Cl₂ * (453.6g / 1lb) * (1mol / 70.90g) =
5118 moles Cl₂
Moles NaOH -Molar mass: 40g/mol-:
1200lb NaOH * (453.6g / 1lb) * (1mol / 40g) =
13608 moles NaOH
For a complete reaction of 13608 moles of NaOH you need:
13608 moles NaOH * (1mol Cl₂ / 2 moles NaOH) = 6804 moles of Cl₂
As the solution contains just 5118 moles of chlorine,
Chlorine is limiting reactantQ1. Which one of the following has the element name and symbol incorrectly
matched?
A. Br, bromine
B. Fe, iron
C. Cu, copper
D. P, potassium
Answer:
D. P, Potassium
Explanation:
Potassium on the periodic table is actually K
In which of the following experiments would the results be most reliable?
A.
an experiment in which the trials were repeated many times
B.
an experiment which contained no controls
C.
an experiment which contained several variables
D.
an experiment in which the trial was repeated a few times
Answer:
A
Explanation:
When doing an experiment you want the most trials and most controls possible. It is impossible to get good data while testing multiple variables at once.