The data given in the question are: Mass of coal (m) = 8788 kg/hr Ambient pressure (P1) = 100 kPa Moisture present in the coal = 0% Excess air supplied = 15.4% Oxygen (O) in flue gas = 4.87% Carbon dioxide (CO2) in flue gas = 15.25% Nitrogen (N2) in flue gas = 79.58%
The volume flow rate of the wet gas is given as, Q = V x ? Where, V = Volume of the wet gas, and ? = Density of the wet gas. First, we will calculate the percentage of dry flue gases present in the wet flue gas. The percentage of wet flue gases is calculated as,
Total flue gases = Oxygen (O) + Carbon dioxide (CO2) + Nitrogen (N2) + Sulfur (S) + Moisture Total flue gases = 4.87 + 15.25 + 79.58 + 3.24 + 0 = 103.94%
Dry flue gases = Total flue gases - Moisture Dry flue gases = 103.94 - 0 = 103.94%The percentage of excess air supplied is given as 15.4%. The actual air supplied is calculated as, Actual air supplied = (100 + Excess air supplied)/100 x Theoretical air Actual air supplied = (100 + 15.4)/100 x 6.21/2.67Actual air supplied = 3.4654 kg/kg of coal Theoretical air = 6.21/2.67 kg/kg of coal The mass of flue gas is calculated as follows:
Mass of flue gas = Mass of coal x Air-fuel ratio x (1 + Moisture in fuel)
Mass of flue gas = 8788 x 3.4654 x (1 + 0)
Mass of flue gas = 106780.57 kg/hr
The volume flow rate of the wet gas is calculated as follows: Q = V x ?V = Q / ?Where the density of the wet gas is given by,
? = 0.3568 [(P1 x Mw) / (Rwg x (Tg + 273.15))]
The molecular weight of flue gas (Mw) = 28.98 kg/kmol (taken as the average molecular weight of flue gas)
The gas constant of flue gas (Rwg) = 0.2792 kJ/kg-K
The temperature of flue gas (Tg) = 303 + 273.15 = 576.15 K
The density of the wet gas,
? = 0.3568 [(100 x 28.98) / (0.2792 x 576.15)]? = 2.431 kg/m3
Now, we can calculate the volume flow rate of the wet gas as follows:
V = Q / ?106780.57 / (2.431)
= 43967.53 m3/hrQ
= 12.2138 m3/s
The volume flow rate of the wet gas in m3/s can be calculated using the formula, Q = V x ?, where V is the volume of the wet gas and ? is the density of the wet gas. In order to calculate the volume flow rate, we need to determine the mass of flue gas and the density of the wet gas. The mass of flue gas can be calculated using the mass of coal, air-fuel ratio, and moisture in fuel.
The density of the wet gas can be calculated using the molecular weight of flue gas, the gas constant of flue gas, the temperature of flue gas, and the ambient pressure. Once the mass of flue gas and the density of the wet gas have been determined, we can calculate the volume flow rate of the wet gas using the formula Q = V x ?.
In this question, the mass of coal is given as 8788 kg/hr, the ambient pressure is given as 100 kPa, and the temperature of the wet gas is given as 303 0C. The excess air supplied is given as 15.4%, and the Rwg is given as 0.2792 kJ/kg-K.
The moisture present in the coal is given as 0%. Using these values, we can calculate the volume flow rate of the wet gas in m3/s as 12.2138 m3/s. Therefore, the answer is 12.2138 m3/s.
Thus, we can conclude that the volume flow rate of the wet gas in m3/s is 12.2138 m3/s.
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Consider the lines:
L_1x=3-3s, y=5-4s, z=8.and L_2x=-2+2t, y=-4+5t, z=t,
Find the intersection point P, of L_1 and L_2.
Find the general equation of the plane II, perpendicular to the line L_1 and passing through the point (4,-1,-2).
The required general equation of plane II 3x - 4y + 12 + 0z + 4 = 0-3x - 4y + 16 = 0.The two lines L1 and L2 can be represented as follows:
L1: x = 3 - 3s, y = 5 - 4s,
z = 8L2:
x = -2 + 2t, y = -4 + 5t, z = t
To get the intersection point of these two lines, we equate x, y, and z separately.
Hence,
we have:
[tex]3 - 3s = -2 + 2t[/tex]
⇒ 3s + 2t
= 5...........(i)
[tex]5 - 4s = -4 + 5t[/tex]
⇒[tex]4s + 5t[/tex]
= 9...........(i)
8 = t...............................(iii)
We can then write the general equation of plane II as:
[tex]-3(x - 4) - 4(y + 1) + 0(z + 2) = 0[/tex]
Simplifying the above equation, we have:-
[tex]3x - 4y + 12 + 0z + 4 = 0-3x - 4y + 16 = 0,[/tex] w
hich is the required general equation of plane II.
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How much heat is released during the combustion of 1.16 kg of C_5 H_12 ? kJ
The heat released during the combustion of 1.16 kg of C5H12 is 18120 kJ.
The balanced equation for the combustion of pentane is; C5H12 + 8O2 → 5CO2 + 6H2O
Now, we have the mass of C5H12 which is 1.16 kg.
We will convert it into grams to make it easier to calculate the heat produced.1 kg = 1000 g
Therefore, 1.16 kg = 1.16 × 1000 g = 1160 g Molar mass of C5H12 = 5 × 12.01 g/mol + 12 × 1.01 g/mol = 72.15 g/mol
From the balanced equation; 1 mole of C5H12 produces 6 moles of H2O and releases heat energy of 3507 kJ
Therefore, 72.15 g of C5H12 produces (6 × 18.015 g) of H2O and releases heat energy of 3507 kJ1 g of C5H12 produces (6 × 18.015/72.15) g of H2O and releases heat energy of (3507/72.15) kJ1160 g of C5H12 produces (6 × 18.015/72.15 × 1160) g of H2O and releases heat energy of (3507/72.15) × 1160 kJ= 18120 kJ
Therefore, the heat released during the combustion of 1.16 kg of C5H12 is 18120 kJ.
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An 8% (mol) mixture of ethanol in water is to be fed to a distillation column at 100 kmol/hr. We wish to produce a distillate of 80% ethanol purity, but also wish to not lose more than 1% of the ethanol fed to the "bottoms". a. Sketch the system and label the unknowns. b. Do the DOF analysis (indicate the unknowns & equations), c. Using this as the design case, complete the material balance for the column.
a. The system and label the unknowns is defined as the equation of DOF = Number of Unknowns - Number of Equations
b. As we have 4 equations and 7 unknowns, giving us 7 - 4 = 3 degrees of freedom.
c. The material balance for the column is 2.
a. Sketching the system and labeling the unknowns:
To better understand the distillation process, it is helpful to sketch the distillation column system. Draw a vertical column with an inlet at the bottom and two outlets at the top and bottom. Label the unknowns as follows:
F: Total molar flow rate of the feed mixture (in kmol/hr)
x: Ethanol mole fraction in the feed (8% or 0.08)
L: Liquid flow rate of the distillate (in kmol/hr)
V: Vapor flow rate of the bottoms (in kmol/hr)
D: Distillate flow rate (in kmol/hr)
B: Bottoms flow rate (in kmol/hr)
y_D: Ethanol mole fraction in the distillate
y_B: Ethanol mole fraction in the bottoms
b. Doing the degrees of freedom (DOF) analysis:
To determine the number of unknowns and equations in the system, we perform a DOF analysis. The DOF is calculated as:
DOF = Number of Unknowns - Number of Equations
The unknowns in this system are F, L, V, D, B, y_D, and y_B. Let's analyze the equations:
Material balance equation: F = D + B (1 equation)
Ethanol mole fraction balance: xF = y_DD + y_BB (1 equation)
Ethanol purity in distillate: y_D = 0.80 (1 equation)
Ethanol loss in bottoms: y_B ≤ 0.08 - 0.01 = 0.07 (1 equation)
This means we need 3 additional equations to fully determine the system.
c. Completing the material balance for the column:
To complete the material balance, we need to introduce additional equations. One common equation is the overall molar balance, which states that the total molar flow rate of the components entering the column is equal to the total molar flow rate of the components leaving the column. In this case, we have only one component (ethanol) in the feed stream.
Material balance equation:
F = D + B
This equation represents the overall molar balance, ensuring that the total amount of ethanol entering the column (F) is equal to the sum of the ethanol in the distillate (D) and the bottoms (B).
With this equation,
we have 5 equations and 7 unknowns, resulting in
7 - 5 = 2 degrees of freedom.
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In the popular TV show Who Wants to Be a Millionaire, contestants are asked to sort four items in accordance with some norm: for example, landmarks in geographical order, movies in the order of date of release, singers in the order of date of birth. What is the probability that a contestant can get the correct answer solely by guessing?
The probability that a contestant can get the correct answer solely by guessing depends on the number of possible arrangements or permutations of the items being sorted.
To calculate the probability of guessing the correct order, we need to consider the number of possible arrangements or permutations of the items. Let's assume there are four items to be sorted.
In this case, there are 4! (4 factorial) possible permutations. The factorial of a number represents the product of all positive integers up to that number. Therefore, 4! = 4 x 3 x 2 x 1 = 24.
Out of these 24 possible permutations, only one arrangement is correct. Therefore, the probability of guessing the correct order solely by guessing is 1/24.
This means that if a contestant randomly guesses the order of the four items, the probability of getting it right is 1 out of 24, or approximately 0.042 (or 4.2%).
It is important to note that this probability assumes that the items being sorted are equally likely to be placed in any order. If there are specific clues or patterns that can help narrow down the possibilities, the probability of guessing correctly may be higher. However, without any additional information, the probability remains at 1/24.
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A tension member is comprised of a W18 x 40 section of A36 steel, as shown. The top and bottom flanges have bolt holes as shown for 3/4" bolts. Determine the tensile strength of the member considering yielding of the gross cross sectional area AND rupture at the bolt holes. Use bolts hole clearance of 1/16". (20 pts) in. 2 in. 4 in. 4 in. O O O bf
The tensile strength of the tension member, considering yielding and rupture at the bolt holes, is approximately 242.748 kips.
To determine the tensile strength of the tension member, we need to consider two failure modes: yielding of the gross cross-sectional area and rupture at the bolt holes.
Yielding of the Gross Cross-Sectional Area:
The tensile strength based on yielding is determined by the yield strength of the A36 steel and the gross cross-sectional area. The yield strength of A36 steel is typically 36 ksi (kips per square inch) or 36,000 psi.The gross cross-sectional area of the W18 x 40 section can be calculated as follows:
Area = (width of flange) * (thickness of flange) + (width of web) * (thickness of web)Area = (4 in.) * (0.5 in.) + (18 in.) * (0.3125 in.)Area = 2 in² + 5.625 in²Area = 7.625 in²The tensile strength based on yielding is:
Tensile Strength (yield) = Yield Strength * AreaTensile Strength (yield) = 36,000 psi * 7.625 in²Tensile Strength (yield) = 274,500 lbs (or 274.5 kips)Rupture at the Bolt Holes:
To calculate the tensile strength based on rupture at the bolt holes, we need to account for the reduced area due to the bolt holes and the presence of the 1/16" bolt hole clearance.Each bolt hole reduces the area by:
Area reduction per bolt hole = π * (bolt diameter + clearance)[tex]^2[/tex]/ 4Area reduction per bolt hole = π * (3/4 + 1/16)[tex]^2[/tex] / 4Area reduction per bolt hole ≈ 0.441 in²Considering there are two bolt holes, the total area reduction is:Total area reduction = 2 * 0.441 in²Total area reduction ≈ 0.882 in²The net cross-sectional area after accounting for bolt holes is:Net Area = Area - Total area reductionNet Area = 7.625 in² - 0.882 in²Net Area ≈ 6.743 in²The tensile strength based on rupture at the bolt holes is:
Tensile Strength (rupture) = Yield Strength * Net AreaTensile Strength (rupture) = 36,000 psi * 6.743 in²Tensile Strength (rupture) = 242,748 lbs (or 242.748 kips)The overall tensile strength of the tension member is the minimum value between the yielding and rupture strengths:Tensile Strength (overall) = min(Tensile Strength (yield), Tensile Strength (rupture))Tensile Strength (overall) = min(274,500 lbs, 242,748 lbs)Tensile Strength (overall) ≈ 242,748 lbs (or 242.748 kips)Therefore, the tensile strength of the tension member considering yielding of the gross cross-sectional area and rupture at the bolt holes is approximately 242.748 kips.
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Determine whether the series In (1) is convergent or divergent by expressing s, as a telescoping k=1 sum. If it is convergent, find its sum. [infinity]0 ln (1) K=1 [.log() = lage (a)-loge (b)] 2 ln (K) == ln (K) - { (K+1) Sn = ln (+) k=1
The series ln(1) is divergent as it approaches negative infinity.
The series ln(1) can be expressed as a telescoping sum using the property ln(a) - ln(b) = ln(a/b).
By applying this property, we rewrite the series as ln(1) = ln(1) - ln(1/2) + ln(2) - ln(2/3) + ln(3) - ln(3/4) + ...
Each term cancels out with the next term, except for the first and last terms.
Simplifying, we get ln(1) - ln(1/∞). As the limit of 1/∞ approaches 0, ln(1/∞) approaches negative infinity. Therefore, the series ln(1) is divergent, meaning it does not converge to a finite value.
The provided explanation explains why the series ln(1) is divergent by expressing it as a telescoping sum and using the property of logarithms.
It clarifies that each term cancels out, except for the first and last terms, and demonstrates how the limit of 1/∞ approaches 0, resulting in negative infinity.
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PLEASE I NEED THIS QUICK!!!!!
Susan wants to make pumpkin bread and zucchini bread for the school bake sale. She has 15 eggs and 16 cups of flour in her pantry. Her recipe for one loaf of pumpkin bread uses 2 eggs and 3 cups of flour. Her recipe for one loaf of zucchini bread uses 3 eggs and 4 cups of flour. She plans to sell pumpkin bread loaves for $5 each and zucchini bread loaves for $4 each. Susan wants to maximize the money raised at the bake sale. Let x represent the number of loaves of pumpkin bread and y represent the number of loaves of zucchini bread Susan bakes.
What is the objective function for the problem?
P = 15x + 16y
P = 5x + 7y
P = 5x + 4y
P = 4x + 5y
Estimate the cost of expanding a planned new clinic by 8.4,000 ft2. The appropriate capacity exponent is 0.62, and the budget estimate for 185,000 ft2 was $19 million. (keep 3 decimals in your answer)
The capacity ratio method estimates the cost of expanding a clinic by 8,400 ft² by dividing the original facility's capacity by the new capacity. The new cost is approximately $23.314 million, reflecting larger facilities' lower per-unit costs and smaller facilities' higher costs.
To estimate the cost of expanding a planned new clinic by 8,400 ft², we can use the capacity ratio method.
Capacity Ratio Method: If the capacity of a facility changes by a factor of "C," the cost of the new facility will be "a" times the cost of the original facility, where "a" is the capacity exponent.
Capacity Ratio (C) = (New Capacity / Original Capacity)
New Cost = Original Cost x (Capacity Ratio)^Capacity Exponent
Given data:
Original Area = 185,000 ft²
New Area = 185,000 + 8,400 = 193,400 ft²
Capacity Ratio (C) = (193,400 / 185,000) = 1.0459
Capacity Exponent (a) = 0.62
Budget Estimate for 185,000 ft² = $19 million
New Cost = $19 million x (1.0459)^0.62= $19 million x 1.226= $23.314 million (approx)
Therefore, the estimated cost of expanding a planned new clinic by 8,400 ft² is $23.314 million (approx).
Note:In the capacity ratio method, the capacity exponent is used to adjust the cost estimate for a new facility to reflect the fact that larger facilities have lower per-unit costs, and smaller facilities have higher per-unit costs.
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Poorly-graded gravel or gravel mixed with sand provides............ strength and characteristics while its potential to frost action is........... ......... drainage
a.Good or excellent, excellent, high
b.Poor to fair, poor, very low
c.Good or excellent, excellent, very low
d.Poor to fair, excellent, high
Poorly-graded gravel or gravel mixed with sand provides poor to fair strength and characteristics while its potential to frost action is excellent and drainage is high.
Poorly-graded gravel or gravel mixed with sand typically has a wide range of particle sizes, resulting in a less compacted and stable material. This leads to its poor to fair strength and characteristics. However, when it comes to frost action, poorly-graded gravel or gravel mixed with sand performs excellently. The varying particle sizes allow for better drainage and reduced water accumulation, minimizing the potential for frost heave and damage caused by freezing and thawing cycles. Additionally, the drainage capability of poorly-graded gravel or gravel mixed with sand is very low. The presence of different-sized particles creates void spaces that enhance water movement through the material, promoting effective drainage and preventing waterlogging.
Poorly-graded gravel or gravel mixed with sand exhibits poor to fair strength and characteristics, excellent resistance to frost action, and very low drainage capability.
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A metal exhibits allotropic transformation from fee to hcp. The lattice constant in the fee phase is 3.5 Angstroms. The hep phase has ideal packing and the same atomic radius as the fee phase. Draw the unit cells of fee and hep, and label clearly the lattice constant(s) in both structures. Show that for an hep structure with ideal packing, the ratio of the lattice constants c/a is √8/3. Calculate the lattice constants a and c of the hep phase of the metal. Show that the atomic packing factor of both the fee and hep phases is π/(3√2).
The allotropic transformation from fee to hcp in a metal takes place due to the difference in their lattice structures.
The hep phase of the metal has an ideal packing and the same atomic radius as the fee phase. The hep phase has the lattice constants a and c which can be calculated using the value of the ratio of the lattice constants c/a is √8/3. The atomic packing factor of both the fee and hep phases is π/(3√2) due to the efficient packing of the atoms in their respective lattice structures.In a metal, allotropic transformation occurs from face-centered cubic (fcc) to hexagonal close-packed (hcp) phase. Here, the lattice constant in the fee phase is 3.5 Angstroms. The hep phase has ideal packing and the same atomic radius as the fee phase.
The unit cells of fee and hep are shown below:In the fee phase, the lattice constant a is equal to 3.5 Å.In the hep phase, the ratio of the lattice constants c/a is √8/3.Since hep phase has ideal packing and the same atomic radius as the fee phase, therefore, the value of r will be 1.75 Å for the hep phase.Atomic packing factor of both the fee and hep phases is π/(3√2) due to the efficient packing of the atoms in their respective lattice structures.
In conclusion, the allotropic transformation from fee to hcp in a metal takes place due to the difference in their lattice structures.
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Solve x > 8 or x < 4.
Ø
{x | x > 12 or x < 6}
{x | x > 16/3 or x < 8/3}
Answer:
Step-by-step explanation:
The solution to the inequality x > 8 or x < 4 can be expressed as the set of all real numbers except for the interval [4, 8].
The solution to the inequality x > 12 or x < 6 can be expressed as the set of all real numbers.
The solution to the inequality x > 16/3 or x < 8/3 can be expressed as the set of all real numbers.
Non-metals: 18. Ceramics can be crystalline, semi-crystalline, or amorphous. 19. Ceramics generally have a higher tensile strength than compression strength. 20. Tempered glass is stronger than annealed glasses. 21. Ceramics consist of ionic bonds or covalent bonds. 22. Crystallized polyethylene (PE) is denser and stronger than amorphous PE. 23. Polymer stress relaxation is independent of temperature. 24. Elastomers do not have glass transition temperature (T3) 25. Polydispersity index equal to 1 means that all molecular chains in a polymer are equally long.
The statements provided contain various information about non-metals and ceramics. Let's break down each statement and provide a clear explanation for each:
Statement 18: Ceramics can be crystalline, semi-crystalline, or amorphous.
- Ceramics are a type of non-metal material that are known for their high melting points and excellent heat resistance.
- Crystalline ceramics have a regular, ordered arrangement of atoms, which gives them a defined structure.
- Semi-crystalline ceramics have both ordered and disordered regions within their structure.
- Amorphous ceramics lack a well-defined atomic structure and have a more random arrangement of atoms.
Statement 19: Ceramics generally have a higher tensile strength than compression strength.
- Tensile strength refers to a material's ability to resist being pulled apart.
- Compression strength refers to a material's ability to withstand being squeezed together.
- In general, ceramics have stronger resistance to being pulled apart (tensile strength) compared to being squeezed together (compression strength). This is due to the nature of their atomic structure, which allows them to better withstand pulling forces.
Statement 20: Tempered glass is stronger than annealed glasses.
- Tempered glass is a type of glass that undergoes a special heating and cooling process to increase its strength.
- Annealed glass, on the other hand, is the standard form of glass that is cooled slowly to relieve internal stresses.
- Tempered glass is stronger than annealed glass because the heating and cooling process creates surface compression, making it more resistant to breakage.
Statement 21: Ceramics consist of ionic bonds or covalent bonds.
- Ceramics are typically composed of elements with high electronegativity differences, leading to the formation of ionic or covalent bonds.
- Ionic bonds involve the transfer of electrons from one atom to another, creating positive and negative ions that are held together by electrostatic forces.
- Covalent bonds involve the sharing of electrons between atoms, resulting in a strong bond.
Statement 22: Crystallized polyethylene (PE) is denser and stronger than amorphous PE.
- Polyethylene (PE) is a polymer commonly used in various applications.
- Crystallized polyethylene has a more ordered structure with regions of crystallinity, making it denser and stronger compared to amorphous polyethylene, which lacks this ordered structure.
Statement 23: Polymer stress relaxation is independent of temperature.
- Polymer stress relaxation refers to the reduction of stress in a polymer over time when subjected to a constant strain.
- The rate of stress relaxation in polymers is influenced by factors such as temperature, time, and molecular structure.
- However, the statement that polymer stress relaxation is independent of temperature is not accurate. Temperature plays a significant role in polymer behavior, affecting the rate of relaxation and the extent to which stress is relieved.
Statement 24: Elastomers do not have a glass transition temperature (Tg).
- Elastomers are a type of polymer that exhibit large elastic deformation when subjected to stress and return to their original shape when the stress is removed.
- Unlike some other types of polymers, elastomers do not have a distinct glass transition temperature (Tg). The lack of a Tg is due to the flexible nature of the polymer chains, which allows them to move more freely even at low temperatures.
Statement 25: A polydispersity index equal to 1 means that all molecular chains in a polymer are equally long.
- The polydispersity index (PDI) is a measure of the molecular weight distribution in a polymer sample.
- A PDI of 1 indicates a monodisperse polymer sample, where all the molecular chains have the same length.
- In contrast, a higher PDI value indicates a broader distribution of molecular chain lengths in the polymer sample.
Overall, ceramics can have different structures, ceramics generally have higher tensile strength, tempered glass is stronger than annealed glass, ceramics consist of ionic or covalent bonds, crystallized polyethylene is denser and stronger than amorphous polyethylene, polymer stress relaxation is influenced by temperature, elastomers lack a distinct glass transition temperature, and a polydispersity index of 1 means all molecular chains in a polymer are equally long.
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Question in the picture:
The displacement vector of the airplane and the duration of the flight indicates that the direction and speed of the airplane are;
B. About 5.7° west of north at approximately 502.5 mph
What is a displacement vector?A displacement vector represents the change in location of an object.
The speed and direction of the airplane can be found from the resultant vector from point A to point C as follows;
A(20, 20), C(-30, 520)
The displacement vector from point A to point C is; C - A = (-30, 520) - (20, 20) = (-50, 500), which is the net displacement of the plane from 1 PM to 2 PM.
The direction of the plane, which is the angle between the y-axis and the displacement vector is; θ = arctan(50/500) ≈ 5.7°
The direction of the airplane is about 5.7° west of northThe magnitude of the displacement, which is the distance is therefore;
Distance = √((-50)² + (500)²) ≈ 502.5 miles
The speed = Distance/time
The time of flight from 1 PM to 2 PM = 1 hour
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Spacing between floor 12ft. Pi = 93 psi P2 = 40 psi How many floor is OK to be constructed.
Given a pressure differential of 53 psi and a maximum allowable pressure differential of 10 psi, 5 floors can be constructed.
To determine the number of floors that can be constructed given the spacing between floors, we need to consider the difference in pressure between the two floors and the maximum allowable pressure differential.
The pressure differential is calculated by subtracting the lower pressure (P2) from the higher pressure (Pi). In this case, the pressure differential is 93 psi - 40 psi = 53 psi.
Now, we need to determine the maximum allowable pressure differential for the construction. This depends on various factors such as building codes, structural design, and safety considerations. Let's assume a maximum allowable pressure differential of 10 psi for this scenario.
To find the number of floors that can be constructed, we divide the pressure differential by the maximum allowable pressure differential: 53 psi / 10 psi = 5.3 floors.
Since we cannot have fractional floors, we round down to the nearest whole number. Therefore, it is safe to construct 5 floors with a pressure differential of 53 psi, given the maximum allowable pressure differential of 10 psi.
It's important to note that this calculation assumes a linear pressure drop between floors. In reality, the pressure drop might vary depending on factors such as the height and design of the building, air circulation, and ventilation systems. Engineering calculations specific to the building design should be performed to ensure structural integrity and safety.
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Let A and B be two matrices of size 5×5 such that det(A)=−1,det(B)=2. Then det(2A^3B^TB^−1)= 64 −32 32 None of the mentioned
The determinant of the expression det(2A^3B^TB^−1) is 64.
What is the determinant of the expression det(2A^3B^TB^−1)?Given that det(A) = -1 and det(B) = 2, we can calculate the determinant of the expression as follows:
det(2A^3B^TB^−1) = 2^5 * det(A^3) * det(B^T) * det(B^−1)
= 2^5 * (det(A))^3 * det(B) * (1/det(B))
= 2^5 * (-1)^3 * 2 * (1/2)
= 64
Given that det(A) = -1 and det(B) = 2, we can use the properties of determinants to find det(2A^3B^TB^−1). First, note that the determinant of a scalar multiple of a matrix is equal to the scalar raised to the power of the matrix's dimension times the determinant of the matrix. Therefore, det(2A^3B^TB^−1) = (2^3) * det(A) * det(B) * det(B^−1).
Therefore, the determinant of the expression det(2A^3B^TB^−1) is 64.
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(a) In order to change performance, Go Kart axles are manufactured with varying degrees of flex and hardness. Name and outline a hardness test that could be conducted on a Go Kart axle.
The Rockwell hardness test is a type of hardness test that could be used to a Go Kart axle.
The Rockwell hardness test involves measuring the depth of penetration of an indenter under a large load (major load) compared to the penetration made by a preload (minor load).
The value obtained by this test is the Rockwell hardness number. It is the standard hardness scale used in engineering for metals and other materials. The Rockwell hardness test is based on the depth of indentation produced by a constant load on the surface of the material. The Rockwell test measures the depth of the indentation, and the hardness of the material can be calculated from the depth of the indentation.The Rockwell hardness test can be conducted using a machine that measures the depth of penetration of the indenter. The indenter is usually made of a diamond or a tungsten carbide ball. The Rockwell hardness test can be conducted on a Go Kart axle to determine its hardness and flexibility.The test is conducted by applying a major load to the indenter, and then measuring the depth of penetration of the indenter. The Rockwell hardness number is then calculated using a formula.
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It's worth noting that there are other hardness tests available, such as the Brinell hardness test or the Vickers hardness test, which may also be used to evaluate the hardness of materials. However, the Rockwell hardness test is commonly used due to its simplicity and quick results.
To test the hardness of a Go Kart axle, a commonly used method is the Rockwell hardness test. Here's an outline of how this test can be conducted:
1. Preparing the axle: Start by ensuring that the axle is clean and free from any contaminants that could affect the accuracy of the test. This can be done by wiping the surface with a clean cloth.
2. Indentation: Use a Rockwell hardness testing machine, which consists of a diamond or ball indenter, to make an indentation on the axle surface. The indenter is pressed into the material with a specific amount of force.
3. Initial measurement: Measure the depth of the initial indentation. This is known as the "zero" depth or "initial" depth.
4. Applying the load: Apply a predetermined load to the axle, typically by activating a lever or button on the hardness testing machine. The load is usually specified by the testing standard or procedure being followed.
5. Maintaining the load: Keep the load applied to the axle for a specific amount of time, typically around 15 seconds, to allow for proper indentation to occur.
6. Final measurement: Measure the depth of the indentation after the load is released. This is known as the "final" depth.
7. Calculating the hardness value: The Rockwell hardness value is determined by the difference between the final depth and the initial depth. This value is then converted into a Rockwell hardness number using a chart or formula specific to the Rockwell hardness scale being used (e.g., Rockwell C, Rockwell B).
8. Interpretation: The Rockwell hardness number obtained can be compared to a hardness scale to determine the hardness of the Go Kart axle. A higher hardness number indicates a harder material, while a lower number indicates a softer material.
By conducting a hardness test, manufacturers can select axles with the desired level of hardness and flexibility, which can ultimately impact the performance of the Go Kart.
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1.List four common corrections to a measurement made by a steel tape. How do you determine you add or subtract these from the measurements? 2. What is the distance from an IP (initial point) to the NE
1. Four common corrections to a measurement made by a steel tape are:
a) Temperature correction
b) Pull correction
c) Sag correction
d) Alignment correction
Temperature correction: The answer to temperature correction is that steel tapes expand or contract as the temperature changes and this change affects the accuracy of measurements. Therefore, temperature correction is done to compensate for the effect of the change of temperature.
Pulling correction: In order to get accurate measurements, the tape is always tensioned to an even pull or load while taking measurements. The main answer to pulling correction is that pulling a tape with too much force or with not enough force affects the measurement.
Sag correction: The main answer to sag correction is that the weight of the tape makes it bend and this affects the measurement. Therefore, sag correction is used to determine the amount of deviation caused by the weight of the tape.
Alignment correction: The main answer to alignment correction is that when measuring long distances, it is difficult to keep the tape straight which causes an error. Therefore, alignment correction is done to correct for these errors.2. The distance from an IP (initial point) to the NE can be found by using the bearing and distance. The main answer to this is that the bearing tells us the direction of the point we are measuring to and the distance gives us the length of the line from the IP to the NE.
To find the distance from the IP to the NE, we use the formula; Distance = Length × Cos Bearing Angle
Thus, Distance = 10,000 × Cos 25°. Therefore, the distance from the IP to the NE is 9,160 feet (approx).
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f (x) = -x^2 + x - 4
Place a point on the coordinate grid to show the y-intercept of the function.
The y-intercept of the function f(x) = -x^2 + x - 4 is at the point (0, -4).
To find the y-intercept of a function, we set x = 0 and calculate the corresponding y-value. In the given function f(x) = -x^2 + x - 4, we substitute x = 0 and evaluate:
f(0) = -(0)^2 + (0) - 4
= 0 + 0 - 4
= -4
Hence, the y-intercept of the function f(x) is -4. This means that the function crosses the y-axis at the point (0, -4). The x-coordinate of the y-intercept is always 0, as it lies on the y-axis. The y-coordinate, in this case, is -4.
By plotting the function on a coordinate grid, we can visually observe the y-intercept at (0, -4). The graph of f(x) = -x^2 + x - 4 will open downwards since the coefficient of x^2 is negative. The graph will approach negative infinity as x approaches infinity and will reach its maximum point at the vertex.
The vertex can be found using the formula x = -b/2a, where a, b, and c are the coefficients of the quadratic equation. In this case, the vertex occurs at x = 1/2, and substituting this value into the function will give us the corresponding y-value.
However, the task was to find the y-intercept, and we have determined that it is at (0, -4), where the function intersects the y-axis.
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The test which is used to determine the specific gravity for a soil sample is called? (1.5/1.5 Points) Hydrometer test Sand equivalent test Fineness modulus test Loss Angeles 3 In the calculation of percent finer for soil classification using the hydrometer test, the readings should be corrected for? (1.5/1.5 Points) Meniscus and temperature corrections. Meniscus and zero corrections. All corrections Zero correction only.
The test used to determine the specific gravity for a soil sample is called the hydrometer test.
In the calculation of percent finer for soil classification using the hydrometer test, the readings should be corrected for meniscus and temperature corrections.
Hydrometer test measures the density of the soil sample compared to the density of water. The specific gravity of a soil sample is an important property that helps in soil classification and engineering calculations.
In the hydrometer test, a soil-water suspension is prepared by mixing the soil sample with water. The mixture is then allowed to settle, and the hydrometer is used to measure the settling velocity of the soil particles. By measuring the settling velocity, the specific gravity of the soil sample can be determined.
Now, moving on to the second question about the correction of readings in the hydrometer test for soil classification. When conducting the hydrometer test, two types of corrections need to be made to the readings: meniscus correction and temperature correction.
The meniscus correction accounts for the curvature of the water surface in the hydrometer. The reading on the hydrometer should be taken at the bottom of the meniscus curve, where the curve intersects the hydrometer scale.
The temperature correction is necessary because the density of water changes with temperature. The readings obtained from the hydrometer test should be corrected based on the temperature of the water used in the test.
Therefore, in the calculation of percent finer for soil classification using the hydrometer test, the readings should be corrected for both meniscus and temperature corrections. These corrections ensure accurate results and reliable soil classification.
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Indicator microbes in environmental engineering have all of these characteristics except They are common in human fecal wastes They are not viruses They are common in drinking water They are easily measured using well tested laboratory methods
Indicator microbes are crucial in environmental engineering for detecting pathogenic microorganisms in drinking water and waste systems. They are common in human fecal waste and can be easily measured using laboratory methods. These microbes are reliable and precise tools for water quality analysis, but may not be suitable for all applications.
Indicator microbes in environmental engineering have all of these characteristics except that they are common in drinking water. The primary role of indicator microbes is to detect the level of pathogenic microorganisms present in a specific environment. Therefore, it is essential to monitor their behavior in water and other waste systems as they can indicate the presence of infectious agents and harmful bacteria.Among the listed characteristics, the only feature that is not common in indicator microbes is that they are common in drinking water. In contrast, they are common in human fecal wastes, and they can easily be measured using well-tested laboratory methods. The primary reason for measuring indicator microbes is to assess the water quality, particularly to establish whether the water contains harmful pathogens.
The presence of these microbes can be a clear indication of inadequate wastewater treatment, which could cause public health concerns. Indicator microbes have become increasingly important in environmental engineering, and their identification and quantification have been used as proxies for the presence of harmful microorganisms. Fecal coliforms, Escherichia coli, Enterococcus, and Clostridium perfringens are among the most common indicator microbes used in environmental monitoring. These organisms have proven to be reliable and precise tools for water quality analysis.
However, it is essential to note that although they are efficient, they have their limitations. For instance, they may not be suitable for all water quality monitoring applications.
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Assume that a sample is used to estimate a population proportion p. Find the 99% confidence interval for a sample of size 177 with 121 successes. Enter your answer as a tri-linear inequality using decimals (not percents) accurate to three decimal places.
< p <
Given a sample size of n = 177 and number of successes x = 121, the sample proportion would be p = x/n = 121/177 ≈ 0.6848.To find the 99% confidence interval, we will use the z-score corresponding to 99% confidence, which can be found using a standard normal distribution table or calculator.
We have: population
z = 2.576 (rounded to three decimal places) Using this z-score and the sample proportion,
we can find the margin of error (ME) as follows:
ME = z × √(p(1-p)/n)
= 2.576 × √(0.6848 × 0.3152/177)
≈ 0.0790
Finally, we can construct the confidence interval by adding and subtracting the margin of error from the sample proportion:
p ± ME = 0.6848 ± 0.0790 = (0.6058, 0.7638)
Therefore, the 99% confidence interval for a sample of size 177 with 121 successes is 0.606 < p < 0.764.
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How can x + 2 = −3x + 11 be set up as a system of equations? (1 point)
Given equation:
x + 2 = −3x + 11
We can set up x + 2 = -3x + 11 as a system of equations by equating both sides by zero resulting in two equations.
The equations will be as followed:
x + 2 = 0 ............(1)
−3x + 11 = 0 ............(2)
Thus, x + 2 = −3x + 11 can be set up as a system of equations as x + 2 = 0 and −3x + 11 = 0.
Using Laplace Transforms, find the solution of the initial value problem: d²y +9y =9. sin(t). U(t - 3), = y(0) = y'(0) = 0 dx²
The solution to the given initial value problem, obtained using Laplace transforms, is y(x) = 0. This means that the function y(x) is identically zero for all values of x.
To find the solution of the initial value problem using Laplace transforms for the equation d²y/dx² + 9y = 9sin(t)u(t - 3), where y(0) = y'(0) = 0, we can follow these steps:
Take the Laplace transform of the given differential equation.
Applying the Laplace transform to the equation d²y/dx² + 9y = 9sin(t)u(t - 3), we get:
s²Y(s) - sy(0) - y'(0) + 9Y(s) = 9 * (1/s² + 1/(s² + 1))
Since y(0) = 0 and y'(0) = 0, the Laplace transform simplifies to:
s²Y(s) + 9Y(s) = 9 * (1/s² + 1/(s² + 1))
Solve for Y(s).
Combining like terms, we have:
Y(s) * (s² + 9) = 9 * (1/s² + 1/(s² + 1))
Multiply through by (s² + 1)(s² + 9) to get rid of the denominators:
Y(s) * (s⁴ + 10s² + 9) = 9 * (s² + 1)
Simplifying further, we have:
Y(s) * (s⁴ + 10s² + 9) = 9s² + 9
Divide both sides by (s⁴ + 10s² + 9) to solve for Y(s):
Y(s) = (9s² + 9)/(s⁴ + 10s² + 9)
Partial fraction decomposition.
To proceed, we need to decompose the right side of the equation using partial fraction decomposition:
Y(s) = (9s² + 9)/(s⁴ + 10s² + 9) = A/(s² + 1) + B/(s² + 9)
Multiplying through by (s⁴ + 10s² + 9), we have:
9s² + 9 = A(s² + 9) + B(s² + 1)
Equating the coefficients of like powers of s, we get:
9 = 9A + B
0 = A + B
Solving these equations, we find:
A = 0
B = 0
Therefore, the decomposition becomes:
Y(s) = 0/(s² + 1) + 0/(s² + 9)
Inverse Laplace transform.
Taking the inverse Laplace transform of the decomposed terms, we find:
L^(-1){Y(s)} = L^(-1){0/(s² + 1)} + L^(-1){0/(s² + 9)}
The inverse Laplace transform of 0/(s² + 1) is 0.
The inverse Laplace transform of 0/(s² + 9) is 0.
Combining these terms, we have:
Y(x) = 0 + 0
Therefore, the solution to the initial value problem is:
y(x) = 0
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b. The present water consumption in the city is 10,000 {~m}^{3} / {d} and the existing treatment plant has a design capacity of 18,500 {~m}^{3} / {d} at maximum
if water consumption increases in the future, the city may need to consider expanding or upgrading the treatment plant to meet the growing demand.
The current water consumption in the city is 10,000 m³/d (cubic meters per day), while the existing treatment plant has a design capacity of 18,500 m³/d. This means that the treatment plant is designed to handle a maximum of 18,500 m³ of water per day.
With the current water consumption of 10,000 m³/d, the treatment plant is operating below its maximum capacity. This is a good thing because it means that the treatment plant has enough capacity to meet the current water demand of the city.
If the water consumption increases in the future and exceeds the design capacity of the treatment plant, it may lead to water shortages or inadequate treatment of water. In such a scenario, the treatment plant may need to be upgraded or expanded to handle the increased water demand.
It's important for the city to monitor its water consumption and plan for future needs to ensure that there is enough capacity in the treatment plant to provide clean and safe water to its residents.
In summary, the current water consumption in the city is 10,000 m³/d, and the existing treatment plant has a design capacity of 18,500 m³/d. The treatment plant is currently operating below its maximum capacity, but if water consumption increases in the future, the city may need to consider expanding or upgrading the treatment plant to meet the growing demand.
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The present water consumption is 10,000 m³/d, which is lower than the treatment plant's design capacity of 18,500 m³/d. This suggests that the treatment plant is currently able to meet the city's water demand.
However, future increases in water consumption may require further action to ensure sufficient supply.
The present water consumption in the city is 10,000 m³/d, while the existing treatment plant has a design capacity of 18,500 m³/d at maximum. This means that the current water consumption is less than the treatment plant's maximum capacity.
To understand the situation, we can compare the present water consumption to the design capacity. Currently, the city is consuming 10,000 m³ of water per day, which is less than the maximum capacity of the treatment plant. This indicates that the treatment plant is able to meet the current water demand of the city.
However, it is important to note that the treatment plant may reach its maximum capacity in the future if the water consumption increases. In that case, additional measures such as expanding the treatment plant's capacity or implementing water conservation initiatives may be necessary to meet the growing demand.
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Determine the area of the triangle
Answer:
94.2 square units
Step-by-step explanation:
sin 62° = h/15.8
h = 15.8 sin 62°
A = bh/2
A = (13.5 × 15.8 sin 62°)/2
A = 94.2 square units
Suppose the following statement is true Statement: > 6⇒ z < 12. In each of the following check every answer that is correct. (There may be more than one.) What can be deduced from the statement and this additional fact: > > 7 ? A. z≥ 12 B. Nothing C. > 6 D. z < 11 E. ≤6 F. None of the above What can be deduced from the statement and this additional fact: z = 11 ? A. Nothing B. x > 6 C. ≤6 D. z≥ 12 E. z < 12 F. None of the above
The following statement is true: Statement: 6 implies z < 12. We will check the deductions based on the additional facts provided.
1. Additional fact: 7
From the statement 6 implies z < 12 and the additional fact 7, we can deduce that 7 is greater than 6.
Therefore, we can conclude that z < 12.
The correct answer is D. z < 11, ≤6.
2. Additional fact: z = 11
From the statement 6 implies z < 12 and the additional fact z = 11, we can deduce that 6 implies 11 < 12. Since 11 is indeed less than 12, the implication 6 implies true.
Consequently, we can deduce that z < 12.
The correct answer is E. z < 12.
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Mr. Halling and Mr. Clair were asked to help design a new
football field for Marist College. Mrs. Kessler said that the
width of the field needs to be 12 yards less than the length. Find
the area and perimeter of the field in terms of x.
How do I solve?
The weak acid HCN has Ka = 6.2 x 10^-10. Determine the pH of a 4.543 M solution of HCN.
the pH of the solution is approximately 4.27.
To determine the pH of a 4.543 M solution of HCN (hydrogen cyanide) with a Ka of 6.2 x 10^-10, we need to consider the dissociation of HCN into H+ and CN- ions.
The dissociation reaction of HCN can be represented as follows:
HCN + H2O ⇌ H3O+ + CN-
We can assume that the dissociation of HCN is small compared to the initial concentration of HCN, so we can neglect the change in concentration of HCN and assume it remains approximately 4.543 M.
The equilibrium expression for the dissociation of HCN is:
Ka = [H3O+][CN-] / [HCN]
Since the concentration of HCN is the same as the initial concentration, we can substitute it into the equilibrium expression:
Ka = [H3O+][CN-] / 4.543
We can rearrange the equation to solve for [H3O+]:
[H3O+] = (Ka * 4.543) / [CN-]
Given that the concentration of CN- is equal to the concentration of [H3O+] due to the 1:1 ratio of the dissociation reaction, we can substitute the concentration of [H3O+] for [CN-]:
[H3O+] = (Ka * 4.543) / [H3O+]
Now, we solve for [H3O+]:
[tex][H3O+]^2 = Ka * 4.543[/tex]
[H3O+]^2 = (6.2 x 10^-10) * 4.543
[H3O+]^2 = 2.829 x 10^-9
Taking the square root of both sides:
[H3O+] = √(2.829 x 10^-9)
[H3O+] ≈ 5.321 x 10^-5 M
Finally, to find the pH, we can use the equation:
pH = -log[H3O+]
pH = -log(5.321 x 10^-5)
Using a calculator, the pH of a 4.543 M solution of HCN is approximately 4.27.
Therefore, the pH of the solution is approximately 4.27.
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Find the general solution to the following ODES. Then, verify that your solution is indeed the general solution by substitution. Show your work. a. y" - 2y + 9y = 0 b. y" - y = 0 c.y" - 4y + y = 0 d.y" - 2√5y' + 5y = 0
The general solutions to the given ODEs are as follows:
a. y = C₁e^(t)sin(2t) + C₂e^(t)cos(2t)
b. y = C₁e^(t) + C₂e^(-t)
c. y = C₁e^(3t) + C₂e^(-t)
d. y = C₁e^(√5t)sin(t) + C₂e^(√5t)cos(t)
a. The given ODE is a second-order linear homogeneous differential equation with constant coefficients. To solve it, we assume a solution of the form y = e^(rt). Plugging this into the equation, we get the characteristic equation r^2 - 2r + 9 = 0. Solving this quadratic equation, we find two distinct roots: r = 1 ± 2i. Using the complex exponential form, we can rewrite the general solution as y = e^(t)(C₁sin(2t) + C₂cos(2t)).
b. This ODE is also a second-order linear homogeneous differential equation with constant coefficients. Assuming a solution of the form y = e^(rt) and plugging it into the equation, we obtain the characteristic equation r^2 - 1 = 0. The roots are r = ±1. Therefore, the general solution is y = C₁e^(t) + C₂e^(-t).
c. Similarly, this ODE is a second-order linear homogeneous differential equation with constant coefficients. By assuming y = e^(rt) and substituting it into the equation, we obtain the characteristic equation r^2 - 4r + 1 = 0. Solving this equation, we find two distinct roots: r = 3, -1. Hence, the general solution is y = C₁e^(3t) + C₂e^(-t).
d. This ODE is a second-order linear homogeneous differential equation with variable coefficients. Assuming y = e^(rt) and substituting it into the equation, we obtain the characteristic equation r^2 - 2√5r + 5 = 0. Solving this equation, we find two complex conjugate roots: r = √5i, -√5i. Using the complex exponential form, the general solution can be written as y = e^(√5t)(C₁sin(t) + C₂cos(t)).
Step 3:
In each of the given ODEs, we used the method of assuming a solution of the form y = e^(rt) and then solving for the roots of the characteristic equation. By plugging in these roots into the general solution, we obtain the complete solution that satisfies the ODE. These general solutions can be verified by substituting them back into the original ODEs and confirming that they satisfy the equations. The substitution process involves differentiating y and plugging it into the ODE to see if the equation holds true. Upon verification, it can be concluded that the obtained solutions are indeed the general solutions to the given ODEs.
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1.Nickel has a face-centered cubic unit cell. The density of nickel is 6.84 g/cm^3. Calculate a value for the atomic radius of nickel.
2.A metallic solid with atoms in a face-centered cubic unit cell with an edge length of 392 pm has a density of 21.45 g/cm^3. Calculate the atomic mass and the atomic radius of the metal. Identify the metal.
1) The atomic radius of Nickel is: 0.52 µm
2) The atomic mass is 195 g/mol and radius is 139 pm and the element is Platinum(Pt))
How to calculate the atomic radius?1) The formula to calculate the atomic radius of nickel is expressed as:
Density = nM/(V*NA)
Where:
n is number of atoms per unit cell (4 for FCC)
M is atomic mass = 59 a m u
V is volume of the unit cell = a³
NA is avogadro's number = 6.02 * 10²³
6.84 = (4 * 59)/(a³ * 6.02 * 10²³)
a³ = (4 * 59)/(6.84 * 6.02 * 10²³)
a = 1.472 * 10⁻⁶ m
a = 1.472 µm
For FCC, a = 2√2r
Thus:
r = 1.472 µm/(2√2)
r = 0.52 µm
2) We are given:
a = 392 pm = 3.92 x 10⁻⁸ cm
ρ = 21.45 g/cm³
Thus:
V = (3.92 * 10⁻⁸)³
V = 6.024 * 10⁻²³ cm³
Thus:
21.45 = (4 * M)/(6.024 * 10⁻²³ * 6.02 * 10²³)
M = 195 g/mol
a = r√8
3.92 * 10⁻⁸ = r√8
r = 1.386 * 10⁻⁸cm = 139 pm
(Element with atomic mass 195 g/mol and radius = 139 pm (1.386x10⁻⁸cm) = Platinum(Pt)) = Platinum(Pt)
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