The existence of pore resistance can be determined by comparing rates for different pellet sizes (statement a) and noting the drop in activation energy of the reaction with a rise in temperature, coupled with a possible change in reaction order (statement b). So, The correct statement is: Both a and b are correct.
1. Comparing rates for different pellet sizes: Pore resistance refers to the hindrance or obstruction of the flow of reactants or products through the pores of a material. When the pellet size is different, the number and size of the pores may also vary. By comparing the reaction rates for different pellet sizes, we can observe if there are any variations in the rates. If there is a significant difference in the reaction rates, it indicates the presence of pore resistance.
2. Drop in activation energy with a rise in temperature: Activation energy is the minimum energy required for a reaction to occur. When pore resistance is present, it can affect the activation energy of the reaction. With a rise in temperature, the activation energy usually decreases. If there is a noticeable drop in activation energy, it suggests that pore resistance is influencing the reaction.
3. Possible change in reaction order: Reaction order refers to the relationship between the concentration of reactants and the rate of the reaction. Pore resistance can alter the reaction order by affecting the accessibility of reactants to the reaction sites. If there is a change in the reaction order, it implies that pore resistance is a factor in the reaction.
By considering both the comparison of rates for different pellet sizes and the drop in activation energy with temperature, coupled with a possible change in reaction order, we can determine the existence of pore resistance.
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If A is a 12x9 matrix, what is the largest possible rank of A? If A is a 9x12 matrix, what is the largest possible rank of A? Explain your answers.
Select the correct choice below and fill in the answer box(es) to complete your choice
A. The rank of A is equal to the number of non-pivot columns in A. Since there are more rows than columns in a 12x9 matrix, the rank of a 12x9 m there are 3 non-profit columns. Therefore, the largest possible rank of a 9x12 matrix is
B. The rank of A is equal to the number of pivot positions in A Since there are only 9 columns in a 12x9 matrix, and there are only 9 rows in a 9x1.
C. The rank of Ais equal to the number of columns of A Since there are 9 columns in a 12x9 matrix, the largest possible rank of a 12x9 matrix is
The largest possible rank of a 12x9 matrix is 9.
The largest possible rank of a 9x12 matrix is also 9.
The rank of a matrix refers to the maximum number of linearly independent rows or columns in that matrix.
For a 12x9 matrix, the largest possible rank of A is equal to the number of non-pivot columns in A. Since there are more rows (12) than columns (9), the rank of a 12x9 matrix can be at most 9, because there are 9 columns and each column can be a pivot column. Therefore, the largest possible rank of a 12x9 matrix is 9.
On the other hand, for a 9x12 matrix, the largest possible rank of A is equal to the number of pivot positions in A. Since there are only 9 rows in a 9x12 matrix, and each row can be a pivot row, the rank of a 9x12 matrix can be at most 9. Therefore, the largest possible rank of a 9x12 matrix is 9.
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The parabolic gate shown is 2 m wide and pivoted at O; c=0.25, D=2 m, and H=3 m. Determine (a) the magnitude and line of action of the vertical force on the gate due to the water, (b) the magnitude and line of action of the horizontal force on the gate due to the water Water y=cr² Gate X
a) The magnitude of the vertical force on the gate due to the water can be determined by calculating the hydrostatic pressure acting on the gate.
b) The magnitude of the horizontal force on the gate due to the water is zero.
a) The magnitude of the vertical force on the gate due to the water can be determined by calculating the hydrostatic pressure acting on the gate. The line of action of this force is directed vertically upwards from the centroid of the pressure distribution.
The hydrostatic pressure on a submerged surface is given by the equation:
P = γ * h * A
Where:
P is the pressure,
γ is the specific weight of water (approximately 9810 N/m³),
h is the depth of the centroid of the pressure distribution,
A is the area of the submerged surface.
In this case, the submerged surface is the gate, and the depth of the centroid of the pressure distribution can be determined by calculating the average height of the gate:
h = H - c * D² / 2
Substituting the given values:
h = 3 - 0.25 * 2² / 2 = 2.5 m
The area of the submerged surface can be calculated as:
A = c * D * W
Substituting the given values:
A = 0.25 * 2 * 2 = 1 m²
Now, we can calculate the magnitude of the vertical force on the gate:
F_vertical = P * A
Substituting the values:
F_vertical = γ * h * A
F_vertical = 9810 N/m³ * 2.5 m * 1 m² = 24,525 N
Therefore, the magnitude of the vertical force on the gate due to the water is 24,525 N.
The line of action of this force is directed vertically upwards from the centroid of the pressure distribution, which in this case would be located at the center of the gate.
b) The magnitude of the horizontal force on the gate due to the water is zero. The line of action of this force is along the bottom edge of the gate. Since the water pressure acts vertically and symmetrically on both sides of the gate, the horizontal components of the pressure cancel out. Therefore, there is no horizontal force on the gate due to the water.
The line of action of this force is along the bottom edge of the gate, as there is no horizontal force present.
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A small steel tank which stores a week solution of HCl is coated with epoxy paint. The surface of the paint as been damaged and it is determined that 6000cm² of the steel is exposed to the liquid. The steel has a density of 7.9 g/cm³. After 1 year, it is reported that the weigh loss of the steel was 5 Kg due to uniform corrosion. Assuming that the damaged area has been exposed to the HCl solution for the full year, the corrosion rate in mpy is calculated to be most nearly: Show your work
The corrosion rate is approximately 0.267 mpy. To calculate the corrosion rate in mils per year (mpy), we can use the following formula:
Corrosion Rate (mpy) = (Weight Loss (g) / (Density (g/cm³) * Area (cm²))) * 0.254
Given:
Weight Loss = 5 Kg = 5000 g
Density of steel = 7.9 g/cm³
Area = 6000 cm²
Substituting these values into the formula:
Corrosion Rate (mpy) = (5000 g / (7.9 g/cm³ * 6000 cm²)) * 0.254
Corrosion Rate (mpy) = (5000 / (7.9 * 6000)) * 0.254
Corrosion Rate (mpy) = (5000 / 47400) * 0.254
Corrosion Rate (mpy) ≈ 0.267 mpy
Therefore, the corrosion rate is approximately 0.267 mpy.
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Determine the following: a. Lateral Earth Force at Rest b. Active Earth Pressure (Rankine and Coulomb) c. Passive Earth Pressure (Rankine and Coulomb)
a. Lateral Earth Force at Rest: The lateral earth force at rest is zero. At rest, the lateral earth pressure is due only to the weight of the soil, which acts vertically. Thus, there is no horizontal force.
The lateral earth force at rest is non-existent since the horizontal force component is negligible, and the soil is not moving.
b. Active Earth Pressure (Rankine and Coulomb): Rankine active earth pressure: Ka * 0.5 * unit weight of soil * height of wall squared.
Coulomb active earth pressure: Ka * unit weight of soil * height of wall.
Rankine: Ka = 1 - sin(φ). φ is the internal friction angle of soil.
Coulomb: Ka = tan²(45° + φ/2).
Both Rankine and Coulomb methods provide active earth pressure. The calculations differ due to their assumptions, but both are used to design retaining walls and similar structures.
c. Passive Earth Pressure (Rankine and Coulomb): Rankine passive earth pressure: Kp * 0.5 * unit weight of soil * height of wall squared.
Coulomb passive earth pressure: Kp * unit weight of soil * height of wall.
Rankine: Kp = 1 + sin(φ). φ is the internal friction angle of soil.
Coulomb: Kp = tan²(45° - φ/2).
Both Rankine and Coulomb methods provide passive earth pressure. The calculations differ due to their assumptions, but both are used to design retaining walls and similar structures.
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Calculate the change in pH that occurs when 1.30 mmol of a strong acid is added to 100.mL of the solutions listed below. K a
(CH 3
COOH)=1.75×10 −5
. a. 0.0650MCH 3
COOH+0.0650M CH 3
COONa. Change in pH= b. 0.650MCH 3
COOH+0.650M CH 3
COONa. Change in pH=
a. For the solution 0.0650 M C[tex]H_3[/tex]COOH + 0.0650 M C[tex]H_3[/tex]COONa, the change in pH is approximately -2.19.
b. For the solution 0.650 M C[tex]H_3[/tex]COOH + 0.650 M C[tex]H_3[/tex]COONa, the change in pH is approximately -1.22.
We have,
To calculate the change in pH, we need to determine the initial concentration of the acid, calculate the concentration of the acid and its conjugate base after the addition, and then use the Henderson-Hasselbalch equation.
a. 0.0650 M C[tex]H_3[/tex]COOH + 0.0650 M C[tex]H_3[/tex]COONa:
Initial concentration of C[tex]H_3[/tex]COOH = 0.0650 M
Initial volume of solution = 100 mL = 0.100 L
Initial moles of C[tex]H_3[/tex]COOH
= concentration * volume
= 0.0650 M * 0.100 L
= 0.00650 mol
Since we have a strong acid, it will dissociate completely.
Therefore, the moles of C[tex]H_3[/tex]COOH will be equal to the moles of [tex]H^+[/tex] ions produced.
Change in pH = -log10([[tex]H^+[/tex]]) = -log10(0.00650) ≈ -2.19
b. 0.650 M C[tex]H_3[/tex]COOH + 0.650 M C[tex]H_3[/tex]COONa:
Initial concentration of [tex]CH_3COO[/tex]H = 0.650 M
Initial volume of solution = 100 mL = 0.100 L
Initial moles of C[tex]H_3[/tex]COOH
= concentration * volume
= 0.650 M * 0.100 L
= 0.0650 mol
The C[tex]H_3[/tex]COONa will dissociate into C[tex]H_3[/tex]CO[tex]O^-[/tex] ions and [tex]Na^+[/tex] ions.
The C[tex]H_3[/tex]COOH will partially ionize, resulting in the formation of [tex]CH_3COO^-[/tex] ions and H+ ions.
The Na+ ions will not affect the pH.
To determine the change in pH, we need to calculate the concentration of the CH3COO- ions and the H+ ions after the addition.
This can be done using the Ka value and the initial concentration of CH3COOH.
Ka for C[tex]H_3[/tex]COOH = 1.75 × [tex]10^{-5}[/tex]
First, we need to calculate the equilibrium concentration of the
C[tex]H_3[/tex]CO[tex]O^-[/tex]ions using the initial concentration of C[tex]H_3[/tex]COOH and the Ka value.
[[tex]CH_3COO^-[/tex]] = √(Ka * [[tex]CH_3COOH[/tex]]) = √(1.75 × [tex]10^{-5}[/tex] * 0.0650) ≈ 0.00523 M
The concentration of H+ ions will be equal to the concentration of C[tex]H_3[/tex]COOH that ionized, which can be calculated by subtracting the equilibrium concentration of CH3COO- ions from the initial concentration of C[tex]H_3[/tex]COOH.
[H+] = [C[tex]H_3[/tex]COOH] - [CH3CO[tex]O^-[/tex]] = 0.0650 - 0.00523 ≈ 0.0598 M
Change in pH = -log10([[tex]H^+[/tex]]) = -log10(0.0598) ≈ -1.22
Therefore,
a. For the solution 0.0650 M C[tex]H_3[/tex]COOH + 0.0650 M C[tex]H_3[/tex]COONa, the change in pH is approximately -2.19.
b. For the solution 0.650 M C[tex]H_3[/tex]COOH + 0.650 M C[tex]H_3[/tex]COONa, the change in pH is approximately -1.22.
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Iron can be produced from the following reaction: Fe_2 O_3 ( s)+3CO(g)→2CO_2 ( g)+2 Fe(s). a. How many grams of iron(III) oxide could react completely with 459 g of carbon monoxide? b. What is the theoretical yield (in g) of iron if 65.9 g of carbon monoxide and 98.7 g of iron(III) oxide are allowed to react?
a) 872.02 grams of iron(III) oxide could react completely with 459 g of carbon monoxide.
b) The theoretical yield of iron is 68.99 grams.
Let's see in detail:
a. To determine the amount of iron(III) oxide (Fe_2O_3) that could react completely with 459 g of carbon monoxide (CO), we need to use stoichiometry and the balanced equation.
From the balanced equation, we can see that the molar ratio between Fe_2O_3and CO is 1:3. This means that for every 1 mole of Fe_2O_3, 3 moles of CO are required for complete reaction.
1 mole of CO has a molar mass of 28.01 g/mol, so 459 g of CO is equal to:
459 g CO * (1 mol CO / 28.01 g CO) = 16.383 mol CO
Since the mole ratio is 1:3, the amount of Fe_2O_3required is:
16.383 mol CO * (1 mol Fe_2O_3/ 3 mol CO) = 5.461 mol Fe_2O_3
Now, we need to calculate the mass of Fe_2O_3:
5.461 mol Fe_2O_3 * (159.69 g Fe_2O_3/ 1 mol Fe_2O_3) = 872.02 g Fe_2O_3
Therefore, 872.02 grams of iron(III) oxide could react completely with 459 g of carbon monoxide.
b. To calculate the theoretical yield of iron, we need to compare the amount of iron(III) oxide (Fe_2O_3) and carbon monoxide (CO) in the reaction.
From the balanced equation, we can see that the molar ratio between Fe_2O_3 and CO is 1:3. This means that for every 1 mole of Fe_2O_3, 3 moles of CO are required.
First, let's calculate the number of moles of CO:
65.9 g CO * (1 mol CO / 28.01 g CO) = 2.353 mol CO
Now, let's calculate the number of moles of Fe2O3:
98.7 g Fe_2O_3* (1 mol Fe_2O_3/ 159.69 g Fe_2O_3) = 0.617 mol Fe2O3
Since the mole ratio is 1:3, we can compare the number of moles of Fe_2O_3and CO. The limiting reactant is the one with fewer moles, which in this case is Fe2O3.
Since 1 mole of Fe_2O_3produces 2 moles of Fe, the theoretical yield of iron is:
0.617 mol Fe_2O_3 * (2 mol Fe / 1 mol Fe_2O_3) * (55.85 g Fe / 1 mol Fe) = 68.99 g Fe
Therefore, the theoretical yield of iron is 68.99 grams.
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Concentration of Unknown via Titration ! 44.58 mL of a solution of the acid H₂C₂O4 is titrated, and 42.80 mL of 0.6900-M NaOH is required to reach the equivalence point. Calculate the original concentration of the acid solution. ____M
The original concentration of the acid solution is approximately 0.329 M.
To calculate the original concentration of the acid solution, we can use the concept of titration.
In this problem, we are given the volume of the acid solution (44.58 mL) and the volume of the NaOH solution needed to reach the equivalence point (42.80 mL).
The balanced equation for the reaction between the acid H₂C₂O4 and NaOH is:
H₂C₂O4 + 2NaOH → Na₂C₂O4 + 2H₂O
From the balanced equation, we can see that one mole of H₂C₂O4 reacts with two moles of NaOH.
First, let's calculate the number of moles of NaOH used in the titration:
moles of NaOH = concentration × volume
moles of NaOH = 0.6900 M × 0.04280 L
Now, since the stoichiometric ratio between H₂C₂O4 and NaOH is 1:2, the number of moles of H₂C₂O4 is half of the number of moles of NaOH used in the titration.
moles of H₂C₂O4 = 1/2 × moles of NaOH
Next, we can calculate the concentration of the acid solution:
concentration of H₂C₂O4 = moles of H₂C₂O4 / volume of acid solution
concentration of H₂C₂O4 = moles of H₂C₂O4 / 0.04458 L
Substituting the values, we have:
concentration of H₂C₂O4 = (1/2 × 0.6900 M × 0.04280 L) / 0.04458 L
Simplifying the expression, we get:
concentration of H₂C₂O4 = 0.6900 M × 0.04280 L / (2 × 0.04458 L)
Finally, let's calculate the concentration:
concentration of H₂C₂O4 ≈ 0.329 M
Therefore, the original concentration of the acid solution is approximately 0.329 M.
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In a brewery, the fermented beer is flowing in an elevated pipe at a velocity of 6ms-1 and pressure of 900kPa. Beer exits the pipe at 50 m elevation. The cross-sectional area of the pipe at the entrance is 2 m2 and at the exit is 1m2. The density of beer is 1005kgm-3. Calculate the velocity of beer exiting the pipe Calculate the pressure at the exit. (Show all calculations) Write any assumptions made during your calculations
The velocity of the beer exiting the pipe is 12 m/s, and the pressure at the exit is 81876 Pa.
In the given problem, it is asked to calculate the velocity of the beer exiting the pipe and the pressure at the exit. The given details are as follows:
The velocity of beer in the elevated pipe = 6 ms⁻¹
The pressure of beer in the elevated pipe = 900 kPaElevation of beer where it exits the pipe = 50 m
Cross-sectional area of the pipe at the entrance = 2 m²
Cross-sectional area of the pipe at the exit = 1 m²
Density of beer = 1005 kg/m³
To calculate the velocity of the beer exiting the pipe, we need to use the principle of the continuity of mass and the Bernoulli's principle.
The principle of continuity states that the mass of fluid entering a section of the pipe must be equal to the mass leaving the section. This can be written as,
A₁v₁ = A₂v₂
where A₁ and v₁ are the cross-sectional area and velocity at the entrance, and A₂ and v₂ are the cross-sectional area and velocity at the exit.
Substituting the given values, we get,2 × 6 = 1 × v₂
So, the velocity of beer exiting the pipe is v₂ = 12 m/s.
To calculate the pressure at the exit, we need to use the Bernoulli's principle, which states that the total energy of a fluid flowing in a pipe is constant at all points in the pipe. This can be written as,
P₁ + 0.5ρv₁₂+ ρgh₁ = P₂ + 0.5ρv₂₂ + ρgh₂
where P₁ and P₂ are the pressures at the entrance and exit, ρ is the density of beer, g is the acceleration due to gravity, h₁ and h₂ are the elevations of the beer at the entrance and exit.
Substituting the given values, we get,
900000 + 0.5 × 1005 × 62 + 1005 × 9.81 × 0 = P₂ + 0.5 × 1005 × 122 + 1005 × 9.81 × 50
Solving the equation, we get the pressure at the exit as P₂ = 81876 Pa.
Therefore, the velocity of the beer exiting the pipe is 12 m/s, and the pressure at the exit is 81876 Pa. The assumptions made during the calculation are: the beer is an ideal fluid, the flow is steady, and there are no losses due to friction.
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Suppose a 500 , mL flask is filled with 2.0 mol of H_2and 1.0 mol of HI. The following reaction becomes possible: H_2( g)+I_2( g)⇌2HI(g) The equilibrium constant K for this reaction is 2.95 at the temperature of the flask. Calculate the equilibrium molarity of I_2. Round your answer to two decimal places.
The reaction is:H2(g) + I2(g) ⇌ 2HI(g)Given,Amount of H2 in the flask = 2.0 molAmount of HI in the flask = 1.0 molAt equilibrium, let the number of moles of I2 be "x".
Then the number of moles of HI is "1-x" and the number of moles of H2 is "2-x".The equilibrium constant Kc for the reaction is given as:Kc = [HI]^2 / [H2] [I2]Substituting the values, By solving the above equation for x, the value of x will be obtained, which gives the molarity of I2 at equilibrium.
To obtain the numerical value of x, let us take the square root of both sides of the equation and multiply by the denominators to isolate the term x:2.95 [(2 - x) × x] = [(1 - x)/ 0.5]²590 x² - 1175 x + 580 = 0Solving the quadratic equation above gives:x = 0.612 MThus, the equilibrium molarity of I2 is 0.61 M (rounded to two decimal places).
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Isobutanol (C4H10O; MW=74.12) is an interesting biofuel due to its attractive properties such as its high energy content and compatibility with gasoline engines. I would like to you think about producing this fuel using engineered E. coli cells (CH1.75O0.5N0.16). Your carbon and nitrogen sources will be glucose (C6H12O6; MW=180) and ammonia (NH3), respectively. Experiments in lab-scale bioreactors showed that the following cell and product yields can be achieved: YX/S = 0.15 g cell/g glucose, YP/S = 0.14 g isobutanol/g glucose.
(30 pts) Assuming that cell growth and isobutanol production occurred simultaneously, write a balanced stoichiometric reaction for this biological process. (92% of the E. coli dry cell weight is composed of C, H, O, and N. Their atomic masses are 12, 1, 16 and 14, respectively.)
(15 pts) What is the product yield on cells (YP/X; g isobutanol/g cell)?
1. The balanced stoichiometric reaction for this biological process is [tex]C_6H_12O_6 + 2.4 NH_3 \rightarrow CH_1.75O_0.5N_0.16 + 2.4 H_2O + 0.14 C_4H_10O[/tex]
2. The product yield on cells is 0.93 g isobutanol per gram of E. coli cells produced.
How to write a balanced equation for the reactionBalanced reaction
[tex]C_6H_12O_6 + 2.4 NH_3 \rightarrow CH_1.75O_0.5N_0.16 + 2.4 H_2O + 0.14 C_4H_10O[/tex]
In this reaction, glucose ([tex]C_6H_12O_6[/tex]) and ammonia ([tex]NH_3[/tex]) are used as carbon and nitrogen sources, respectively, to produce isobutanol ([tex]C_4H_10O[/tex]) and E. coli cells ([tex]CH_1.75O_0.5N_0.16[/tex]). The stoichiometric coefficients for glucose and ammonia were determined based on the atomic composition of E. coli cells, which are 92% composed of carbon, hydrogen, oxygen, and nitrogen.
Also, the stoichiometric coefficient for isobutanol was calculated by using the product yield (YP/S) provided in the question. The stoichiometric coefficient for isobutanol is 0.14 g isobutanol/g glucose.
To calculate the product yield on cells:
YP/X = YP/S / YX/S
YP/X = (0.14 g ) / (0.15 )
YP/X = 0.93
Therefore, the product yield on cells is 0.93 g isobutanol per gram of E. coli cells produced.
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Prove the statement n power n /3 power n < n! for n ≥ 6 by
induction
We will prove the statement [tex]n^n / 3^n < n![/tex]for n ≥ 6 by induction. The base case is n = 6, and we will assume the inequality holds for some k ≥ 6. Using the induction hypothesis, we will show that it also holds for k + 1. Thus, proving the statement for n ≥ 6.
Base case: For n = 6, we have 6⁶ / 3⁶ = 46656 / 729 ≈ 64. As 6! = 720, we can see that the statement holds for n = 6.
Inductive step: Assume that the inequality holds for some k ≥ 6, i.e.,
[tex]k^k / 3^k < k!.[/tex] We need to show that it holds for k + 1 as well.
Starting with the left side of the inequality:
[tex](k + 1)^{k + 1} / 3^{k + 1} = (k + 1) * (k + 1)^k / 3 * 3^k[/tex]
[tex]= (k + 1) * (k^k / 3^k) * (k + 1) / 3[/tex]
Since k ≥ 6, we know that (k + 1) / 3 < 1. Therefore, we can write:
[tex](k + 1) * (k^k / 3^k) * (k + 1) / 3 < (k + 1) * (k^k / 3^k) * 1[/tex]
[tex]= (k + 1) * (k^k / 3^k)[/tex]
< (k + 1) * k!
= (k + 1)!
Thus, we have shown that if the inequality holds for k, then it also holds for k + 1. By the principle of mathematical induction, the statement
[tex]n^n / 3^n < n![/tex] is proven for all n ≥ 6.
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The burst pressure is depending on: A Fluid temperature B) Safety Factor C) Operating pressure D) Tube material
The burst pressure of a tube or vessel depends on several factors, including fluid temperature, safety factor, operating pressure, and tube material.
1. Fluid temperature: The temperature of the fluid inside the tube can affect the burst pressure. Higher temperatures can cause the material to weaken, reducing its ability to withstand pressure. Different materials have different temperature limits, so it's important to consider this factor when determining the burst pressure.
2. Safety factor: The safety factor is a factor of safety applied to the design of a tube or vessel to ensure it can withstand pressure beyond the expected operating conditions. It is usually expressed as a ratio, such as 2:1 or 3:1, and it indicates how much stronger the tube is compared to the expected pressure. A higher safety factor means a higher burst pressure requirement.
3. Operating pressure: The operating pressure is the pressure at which the tube or vessel is expected to function. It is important to consider this pressure when determining the burst pressure, as the tube should be able to withstand the maximum operating pressure without failure.
4. Tube material: The material of the tube or vessel plays a crucial role in determining the burst pressure. Different materials have different mechanical properties, such as tensile strength and yield strength, which affect their ability to withstand pressure. Materials with higher strength properties generally have higher burst pressures.
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A wheel accelerates uniformly from rest to 100 rpm in 0.5 sec. It then rotates at that speed for 2 sec before decelerating to rest in 1/3 sec. How many revolutions does it make during the entire time interval?
During the entire time interval, the wheel goes through three phases: acceleration, constant speed, and deceleration.
In the first phase, the wheel accelerates uniformly from rest to 100 rpm in 0.5 sec. To find the angular acceleration, we can use the formula:
Angular acceleration (α) = Change in angular velocity (ω) / Time (t)
ω = (final angular velocity - initial angular velocity) = 100 rpm - 0 rpm = 100 rpm
t = 0.5 sec
Using the formula, α = 100 rpm / 0.5 sec = 200 rpm/s
In the second phase, the wheel rotates at a constant speed of 100 rpm for 2 sec. The number of revolutions during this time can be calculated by multiplying the angular velocity by the time:
Revolutions = Angular velocity (ω) * Time (t)
Revolutions = 100 rpm * 2 sec = 200 revolutions
In the third phase, the wheel decelerates uniformly from 100 rpm to rest in 1/3 sec. Using the same formula as in the first phase, we can find the angular acceleration:
ω = (final angular velocity - initial angular velocity) = 0 rpm - 100 rpm = -100 rpm
t = 1/3 sec
α = -100 rpm / (1/3) sec = -300 rpm/s (negative because it's decelerating)
Finally, to find the number of revolutions during the deceleration phase, we can use the formula:
Revolutions = Angular velocity (ω) * Time (t)
Revolutions = 100 rpm * (1/3) sec = 33.33 revolutions
To calculate the total number of revolutions, we add the number of revolutions in each phase:
Total number of revolutions = 0 revolutions + 200 revolutions + 33.33 revolutions = 233.33 revolutions
So, the wheel makes more than 100 revolutions during the entire time interval.
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The wheel makes approximately 7.33 revolutions during the entire time interval.
The first step is to calculate the angular acceleration of the wheel during the first phase.
Given that the wheel starts from rest and reaches a speed of 100 rpm (revolutions per minute) in 0.5 seconds, we can convert the rpm to radians per second (rps). Since there are 2π radians in one revolution, we have:
100 rpm = (100 rev/1 min) * (1 min/60 s) * (2π rad/1 rev) = 10π rps
Now, we can calculate the angular acceleration (α) using the formula α = (final angular velocity - initial angular velocity) / time:
α = (10π rps - 0 rps) / 0.5 s = 20π rps^2
During the first phase, the wheel undergoes constant angular acceleration. We can use the equation θ = ωi*t + 0.5*α*t^2 to calculate the total angle (θ) rotated during this phase:
θ = 0.5 * (20π rps^2) * (0.5 s)^2 = 2.5π radians
During the second phase, the wheel rotates at a constant speed of 10π rps for 2 seconds. The total angle rotated during this phase is:
θ = (10π rps) * (2 s) = 20π radians
Finally, during the third phase, the wheel decelerates uniformly to rest in 1/3 seconds. Using the same formula as before, we can calculate the total angle rotated during this phase:
θ = 0.5 * (20π rps^2) * (1/3 s)^2 = 2π/3 radians
Adding up the angles rotated in each phase gives us the total angle rotated by the wheel:
Total angle = 2.5π + 20π + 2π/3 = 44π/3 radians
Since there are 2π radians in one revolution, we can convert the total angle to revolutions:
Total revolutions = (44π/3 radians) / (2π radians/1 revolution) = 22/3 revolutions
Therefore, the wheel makes approximately 7.33 revolutions during the entire time interval.
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A crossflow heat exchanger is using river water at 20°C to condense steam entering the heat exchanger at 40°C (latent heat of evaporation of the steam is 2406 kJ kg). The mass flow rate of cooling water is 700 kg s! The overall heat transfer coefficient is 350 W m2 and the area for the heat exchanger is 3000 m². Specific heat capacity of cooling water is 4.18 kJ kg K'. The heat exchanger effectiveness can be calculated using following equation: E = 1 -e-NTU Determine: (1) The effectiveness of the heat exchanger. [4 MARKS) (II) The temperature of cooling water at the outlet of the heat exchanger. [4 MARKS) (III) The heat transfer rate in the process. [4 MARKS) (iv) The mass flow rate of the steam. [4 MARKS] (b) Ammonia fiows over a 1 m long heated flat plate with velocity v = 3 ms and has a temperature T* = 10 °C. If the plate is held at 30°C, determine: (1) The heat transfer coefficient, h (kW m2K"). [6 MARKS] (ii) The heat transfer per unit width, q/L (kWm. [3 MARKS] Additional information: Ammonia properties: Thermal conductivity k = 0.521 Wmk1 Density p = 611.75 kg mº Kinematic viscosity v = 3.59 107 m?s! Pr=2.02 The equation for calculation of Nu number for turbulent flow over a flat surface is: Nu = Pri! (0.036 Re: -836)
(I) The heat transfer coefficient, = 0.033
Heat balance = 20.66
(II) Temperature of cooling water at the outlet: = 29.82°C.
(III) Heat transfer rate: 28.8 MW.
How to sol;ve for the valuesE = 1 - exp(-NTU)
= [tex]1 - e^{0.0335}[/tex]
= 0.033
Heat balance
[tex]\frac{t_{2} -20 }{40-20}=0.033[/tex]
20.66
The heat transfer
= 700 x 4.18 x 1000 x (20.66 - 20)
= 1931.16 kW
The mass flow of steam
= 1931.16 kW / 2406
= 0.80 kg / s
(II) Temperature of cooling water at the outlet:
= 20 + 0.491 * (40 - 20)
= 29.82°C.
(III) Heat transfer rate:
= 700 * 4180 * (29.82 - 20)
= 2.88 * 10⁷ W
= 28.8 MW.
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Consider the reaction of 2-bromopropane with methanol [CH_3OH] to form methyl isopropyl ether [(CH_3)_2CHOCH_3]. Which of the following is the correct rate law for the reaction? a)rate =k[methanol] b)rate =k[2-bromopropane][methanol] c)It cannot be determined rate =k [2-bromopropane]
Considering the reaction of 2-bromopropane with methanol [CH₃OH] to form methyl isopropyl ether [(CH₃)₂CHOCH₃], the correct rate law for the reaction is rate = k[2-bromopropane][methanol]. The correct answer is option(b).
To find the rate law, follow these steps:
The rate law for a chemical reaction describes how the rate of the reaction depends on the concentrations of the reactants. To determine the rate law, we need to compare the initial rates of the reaction at different concentrations of the reactants. If the rate of the reaction changes when the concentration of a reactant changes, then that reactant is included in the rate law.So, the correct rate law for the reaction is as follows:Learn more about rate law:
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Determine whether the folowing problem involves a penmutation or combination. (it is not necessary to solve the problem.) Amedical resowcher needs 27 people to test the effectiveness of an experimental drug. If 82 people have volunteered for the test, in how many ways can 27 people be selected? Permutabon Combration
The problem of selecting 27 people out of 82 volunteers involves combinations.
To determine whether the problem involves permutations or combinations, we need to consider two main factors: the order of selection and whether repetition is allowed.
In permutations, the order of selection matters, which means that different arrangements of the same elements are considered distinct outcomes.
In the given problem, the researcher needs to select 27 people out of a larger group of 82 volunteers. The problem does not mention anything about the order in which the people are selected.
To calculate the number of ways to select 27 people from a group of 82, we can use the concept of combinations. The formula for combinations is given by:
C(n, r) = n! / (r! * (n - r)!)
In this formula, n represents the total number of items (volunteers in this case), and r represents the number of items to be selected (27 people in this case). The exclamation mark (!) denotes the factorial operation.
Applying the formula to the given problem, we have:
C(82, 27) = 82! / (27! * (82 - 27)!)
Since the problem does not require solving it, we can leave the calculation as it is. However, if you want to find the numerical value, you can use a calculator or software that supports factorial calculations.
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Four students are determining the probability of flipping a coin and it landing head's up. Each flips a coin the number of times shown in the table below.
Which student is most likely to find that the actual number of times his or her coin lands heads up most closely matches the predicted number of heads-up landings?
Answer:
Could you show the graph?
Write a scheme for each of the reactions below. Show the full structure of the starting material and the product it forms: 1) 2,4-DNPH test on cyclohexanone 2) Tollens test on butyraldehyde 3) lodoform test on acetophenone 4) Jones test on acetaldehyde
The 2,4-DNPH test on cyclohexanone forms cyclohexanone 2,4-dinitrophenylhydrazone, which is a yellow-orange precipitate.
The 2,4-DNPH test is used to identify the presence of carbonyl compounds. In this reaction, cyclohexanone (C6H10O) reacts with 2,4-dinitrophenylhydrazine (2,4-DNPH) to form a yellow-orange precipitate known as cyclohexanone 2,4-dinitrophenylhydrazone. The reaction occurs through the condensation of the carbonyl group in cyclohexanone with the hydrazine group of 2,4-DNPH. The resulting hydrazone product is insoluble in water and forms a visible precipitate, which confirms the presence of the carbonyl group in cyclohexanone.
Therefore, by performing the 2,4-DNPH test on cyclohexanone, the formation of a yellow-orange precipitate indicates the presence of a carbonyl group. Therefore, it confirms the presence of cyclohexanone in the reaction mixture.
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Write the equation of the line that passes the points (4,-5) and (4,-7). put your answer in a fully simplified point-slope form, unless it is a vertical or horizontal line
The equation of the line passing through (4, -5) and (4, -7) is x = 4.
The equation of the line passing through the points (4, -5) and (4, -7) can be determined using the point-slope form.
The point-slope form of a linear equation is given by y - y1 = m(x - x1), where (x1, y1) represents a point on the line and m is the slope of the line.
In this case, both points have the same x-coordinate, which means the line is a vertical line.
The equation of a vertical line passing through a given x-coordinate is simply x = a, where 'a' is the x-coordinate. Therefore, the equation of the line passing through (4, -5) and (4, -7) is x = 4.
When the x-coordinate is the same for both points, it indicates that the line is vertical. In a vertical line, the value of x remains constant while the y-coordinate can vary. Therefore, the equation of the line is simply x = 4, indicating that all points on the line will have an x-coordinate of 4.
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SOLID OF REVOLUTION: FINDING THE VOLUME USING DISK, SHELL, AND WASHER/RING METHOD Choose the letter of the correct answer. 1. This method is useful when the axis of rotation is part of the boundary of the plane area. a. Circular ring Method b. Washer Method c. Disk method d. Shell Method
b. Washer Method. the washer method is employed when the axis of rotation is part of the boundary, and it involves calculating the volumes of washers formed by rotating the enclosed region around the axis.
The washer method is used when the axis of rotation is part of the boundary of the plane area. It involves integrating the volumes of infinitesimally thin washers (or annular rings) that are formed by rotating the area bounded by the curves around the axis of rotation.
To use the washer method, we consider a differential element within the plane area and revolve it around the axis of rotation to create a washer. The volume of each washer is calculated as the difference between the outer and inner areas of the washer, multiplied by its thickness.
The washer method is particularly useful when the region enclosed by the curves has varying distances from the axis of rotation. By integrating the volumes of all the washers over the given range, we can determine the total volume of the solid of revolution.
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Bending Members Introduction In this assignment, your objective is to design the joist members and the beams presented in the first assignment. Joists and beams should be designed for shear, bending a
The joist members and beams need to be designed for shear, bending, and deflection.
Determine the loads: Calculate the dead load and live load acting on the joist members and beams. The dead load includes the weight of the structure and fixed elements, while the live load represents the variable loads such as furniture or people.
Calculate the reactions: Determine the support reactions at each end of the joist members and beams by considering the equilibrium of forces and moments.
Determine the maximum bending moment: Analyze the structure and calculate the maximum bending moment at critical sections of the joist members and beams using methods such as the moment distribution method or the slope-deflection method.
Design for shear: Calculate the maximum shear force at critical sections and design the joist members and beams to resist the shear stresses by selecting appropriate cross-sectional dimensions and materials.
Design for bending: Design the joist members and beams to withstand the maximum bending moments by selecting suitable cross-sectional dimensions and materials. Consider factors such as the strength and stiffness requirements.
Design for deflection: Check the deflection of the joist members and beams to ensure that they meet the specified limits. Adjust the dimensions and materials if necessary to control deflection.
Check for other design requirements: Consider additional design considerations such as connections, bracing, and lateral stability to ensure the overall structural integrity and safety of the joist members and beams.
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The
total cycle time (including cruising, loss time, and recovery time)
for a route that runs from A to B and then B to A is 80 minutes.
The scheduled headway on the route is 15 minutes for the A to B
The total cycle time for the route from A to B and back from B to A is 80 minutes. The scheduled headway is 15 minutes for the A to B direction. Additionally, the waiting time at each end is approximately 16 minutes.
the total cycle time for a route that runs from A to B and then back from B to A is 80 minutes. The scheduled headway on the route is 15 minutes for the A to B direction.
The total cycle time, we need to consider the time spent on each leg of the route and the waiting time at each end.
1. A to B Leg
Since the scheduled headway is 15 minutes, it means that every 15 minutes a bus departs from point A towards point
So, during the 80-minute cycle time, there will be a total of 80/15 = 5 buses departing from A to B.
2. B to A Leg
Similarly, during the 80-minute cycle time, there will also be 5 buses departing from B to A.
3. Waiting Time
At both points A and B, there will be a waiting time for the next bus to arrive. Assuming that the waiting time is the same at both ends, we can divide the total cycle time by the number of buses (5) to get the average waiting time at each end: 80/5 = 16 minutes.
4. Loss Time and Recovery Time
The question mentions that the total cycle time includes cruising, loss time, and recovery time. However, the question does not provide any specific information about these times. Therefore, we cannot calculate or provide information about these times without further details.
the total cycle time for the route from A to B and back from B to A is 80 minutes. The scheduled headway is 15 minutes for the A to B direction. Additionally, the waiting time at each end is approximately 16 minutes.
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low-rise building is to be built in a site having a compressible dry soil up to a depth of 5 m. Assuming that you have any required technology available suggest the most suitable ground improvement technique for this site giving reasons.
The most suitable ground improvement technique for a low-rise building in a site having a compressible dry soil up to a depth of 5m is to employ Preloading.
The soil settlement in a site may cause detrimental effects on the structure's foundation as it compresses and consolidates under the weight of a structure, leading to settlement issues. Preloading is one of the most popular and effective ground improvement techniques.Preloading is a soil improvement technique in which the soil's settlement is reduced by applying a load to the ground surface to reduce the degree of soil settlement and consolidation before the structure is erected. Preloading's basic concept is that it enables more significant consolidation to occur within the soil, resulting in more excellent deformation of the soil. Hence, the soil's load-carrying capacity is increased, resulting in an improvement in soil characteristics.
The advantages of Preloading include the following:
1. The foundation of a low-rise structure is significantly more stable and long-lasting.
2. Preloading is a cost-effective and environmentally friendly technique for the improvement of soil.
3. Preloading is a quick and effective method of ground improvement.
4. Preloading is a reliable method for dealing with poor soil conditions.
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Please help and show work please
Using cosine ratio from trigonometric ratio concept, the value of x is 6√2 or approximately 8.5
What is trigonometric ratio?Trigonometric ratios, also known as trigonometric functions, are mathematical functions that relate the angles of a right triangle to the ratios of its sides. There are six main trigonometric ratios: sine (sin), cosine (cos), tangent (tan), cosecant (csc), secant (sec), and cotangent (cot).
In this problem, we have the hypothenuse side and the adjacent side, we can use cosine ratio to find the value of x.
cos θ = adjacent / hypothenuse
cos 45 = 6 / x
x = 6 / cos 45
x = 6√2
x = 8.45 ≈ 8.5
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What is the volume of the semi-sphere below?
IF YOU GIVE ME THE RIGHT ANSWER, I WILL GIVE YOU BRAINLEST!!
The volume of the hemisphere of radius 5m is (250/3)π m³.
We know that the volume of a hemisphere can be calculated using the formula:
V = (2/3)πr³
where, V ⇒ volume of the hemisphere
r ⇒ radius of the hemisphere.
Here,
The radius of the hemisphere, r = 5m
Substituting the radius value of 5 into the formula, we can calculate the volume:
V = (2/3) × π × 5³
Simplify the expression:
V = (2/3) × π × 125
Evaluate the expression:
V = (250/3)π cubic meters
Therefore, the volume of a hemisphere with a radius of 5m is approximately (250/3)π m³.
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Given: 1,2,x,5,y,8
Find the vaule of "X" and "y" if the resulting number is 5 and the mean is 4
This system of equations is inconsistent because there is no solution that satisfies both equations simultaneously. Therefore, there is no value of x and y that satisfies the given conditions.
To find the values of x and y in the sequence 1, 2, x, 5, y, 8, given that the resulting number is 5 and the mean is 4, we can use the concept of the mean.
The mean is calculated by summing all the numbers in a sequence and dividing by the total count. In this case, the mean is given as 4.
The sum of the numbers in the sequence is 1 + 2 + x + 5 + y + 8. We need to find the values of x and y such that the resulting number is 5 when added to the sequence.
Using the mean formula, we can set up the equation:
(1 + 2 + x + 5 + y + 8) / 6 = 4
Simplifying this equation, we have:
(16 + x + y) / 6 = 4
Multiplying both sides of the equation by 6, we get:
16 + x + y = 24
Rearranging the equation, we have:
x + y = 8
Since the resulting number is 5 when added to the sequence, we can write:
1 + 2 + x + 5 + y + 8 = 5
Simplifying this equation, we get:
x + y = -11
Now, we have a system of equations:
x + y = 8
x + y = -11
This system of equations is inconsistent because there is no solution that satisfies both equations simultaneously.
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1.You are conducting a binomial experiment. You ask respondents a true or false question. If the experiment is truly binomial, what is the probability that any given respondent will answer false?
25%
It is not possible to determined 50%
25%-50% depending on others answer 2. in statistics, the expected value is also known as the
Mode
Standard deviation
Range
Mean
If the experiment meets these criteria, the probability that any given respondent will answer false can be determined.
The expected value (mean) is 200.
1. In a binomial experiment, you are asking respondents a true or false question. To determine the probability that any given respondent will answer false, you need to consider the specific conditions of the experiment.
In a true binomial experiment, there are only two possible outcomes (true or false) and each trial is independent of the others.
Additionally, the probability of success (answering false in this case) remains constant across all trials.
Therefore, if the experiment meets these criteria, the probability that any given respondent will answer false can be determined.
However, based on the options provided, it is not possible to determine the exact probability.
The options of 25%, 50%, and 25%-50% depending on others' answers do not provide enough information about the experiment to calculate the probability accurately.
2. In statistics, the expected value is also known as the mean. It represents the average value of a random variable or the average outcome of a probability distribution.
To calculate the expected value, you multiply each possible value of the random variable by its corresponding probability and then sum them up.
For example, let's say you have a probability distribution with the following values and probabilities:
Value: 100, Probability: 0.3
Value: 200, Probability: 0.4
Value: 300, Probability: 0.3
To calculate the expected value (mean), you would perform the following calculation:
(100 * 0.3) + (200 * 0.4) + (300 * 0.3) = 30 + 80 + 90 = 200
Therefore, in this example, the expected value (mean) is 200.
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A. Types of Accident to be investigated and reported
B. Elements of Process Safety Management
C. Approaches to Control Hazards
D. Objectives of Risk Management
E. Methods of identifying risk
Methods of identifying risk is systematic techniques used to identify potential risks and hazards in a given scenario.
The correct option is E.
The category "Methods of identifying risk" refers to the systematic techniques or approaches used to identify potential risks and hazards in a given scenario. These methods involve various strategies and tools that help in recognizing and assessing potential risks and hazards before they occur.
This category focuses on proactive measures to identify risks rather than reacting to accidents or incidents that have already happened. It emphasizes the importance of identifying potential risks early on, allowing organizations or individuals to implement appropriate risk management strategies and controls to mitigate or eliminate those risks.
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The question attached seems to be incomplete, the complete question is:
Question: Which category includes the systematic techniques used to identify potential risks and hazards in a given scenario?
Options:
A. Types of Accident to be investigated and reported
B. Elements of Process Safety Management
C. Approaches to Control Hazards
D. Objectives of Risk Management
E. Methods of identifying risk
Answer: E. Methods of identifying risk
A truck of capacity 6 m³ is being used to collect the solid waste from a residential area. The normal working time in a day is 8 h, out of which the truck needs to spend 2 h/trip for travel from coll
The number of trips the truck can make in a day is 3.
How many trips can the truck make in a day?To calculate the number of trips the truck can make in a day, we need to consider the time spent on each trip and the total working time available.
The truck spends 2 hours per trip for travel from the collection point to the disposal site. Since the normal working time in a day is 8 hours, we need to subtract the travel time from the total working time.
Working time available per day = Total working time - Travel time per trip
Working time available per day = 8 hours - 2 hours = 6 hours
Next, we need to determine how much time a single trip takes. If the truck spends 2 hours for travel, then the remaining time for loading and unloading is:
Remaining time per trip = Working time available per day / Number of trips
Remaining time per trip = 6 hours / Number of trips
Since the truck has a capacity of 6 m³, and assuming it is fully loaded on each trip, we can calculate the number of trips using the formula:
Number of trips = Total waste volume / Truck capacity
Number of trips = 6 m³ / 6 m³ = 1 trip
Therefore, the truck can make 1 trip in a day.
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for homogeneous earth dam shown in fig. Cohesion (C) = 2.4 ton/m’Angle of internal friction (0)=250yd= 1.8 ton/m' Submerged weight of soil ys=1.2 ton/m', Area above the phreatic line=380 m Area below the phreatic line = 929 m². Now, check the overall stability of the dam.
As the calculated factor of safety against overturning is more than 1, therefore, the overall stability of the dam is safe and the structure is stable.
Homogeneous earth dam is a type of dam in which a suitable embankment is constructed by compacting various materials like clay, sand, soil, rock, or other materials. For this type of dam, the overall stability of the dam should be checked in order to ensure the safety of the structure.
The procedure for checking the overall stability of the dam is given below:
For homogeneous earth dam shown in figure, the given parameters are:
Cohesion (C) = 2.4 ton/m²
Angle of internal friction (ϕ)= 25°yd= 1.8 ton/m³
Submerged weight of soil ys=1.2 ton/m²
Area above the phreatic line=380 m²
Area below the phreatic line = 929 m²
Step 1: Find the weight of the dam above the phreatic line
The weight of the dam above the phreatic line, W1 = Volume of the dam × unit weight of the dam above phreatic line
= Area × height × unit weight of the dam above phreatic line
= 380 × 12 × 1.8
= 8196 ton
Step 2: Find the weight of the dam below the phreatic line
The weight of the dam below the phreatic line, W2 = Volume of the dam × unit weight of the dam below phreatic line
= Area × height × unit weight of the dam below phreatic line
= 929 × 6 × 1.2
= 6642 ton
Step 3: Find the force acting on the dam due to water
The force acting on the dam due to water, F = Area below the phreatic line × submerged weight of soil × depth of the center of gravity of the area below phreatic line
= 929 × 1.2 × 4
= 4454.4 ton
Step 4: Find the overturning moment
The overturning moment,
MO = W1 × (d/3) + F × d
= 8196 × (8/3) + 4454.4 × 4
= 35298.4 ton-m
Step 5: Find the resisting moment
The resisting moment, MR = (1/2) × C × B × H² + (W1 + W2 - F) × (d/2)
= (1/2) × 2.4 × 380 × 12² + (8196 + 6642 - 4454.4) × (8/2)
= 276504.8 ton-m
Step 6: Find the factor of safety against overturning
The factor of safety against overturning, FOS = MR/MO
= 276504.8/35298.4
= 7.82
Hence, the dam is safe to use and it can withstand the forces acting on it.
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