Based on the picture, devolep 5 question on calculation
Q: METHOD OF FRAMES
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Q: Coefficient of compressibility of water is kw = 2110 MPa. This means that to create +1.00%…
A: Given Pressure change, dP = 21.10 MPa Compressibility, k = 1182.3 MPa Find The fractional…
Q: refrigerant occurs at 55°C, what is the inlet temperature (in °C) of the air? Take the specific heat…
A: given that: Q˙ = 70 kW A = 210 m2 U = 0.037 kW/m2 oC m˙ = 7.59 kg/s cpair = 1.02 kJ/kg-oC…
Q: CARien max Pruncfal atres= 30 Mpa Min Pruncifcel atres s =20 MPa %3D
A: Given data S1= 30 MPa . S2= 20 MPa.
Q: Approximately, what is the value of (P) if A=640, n=24 years, and i= 23% per year?
A: Formula to compute P,P=A1+in-1i1+inP=present worth,A=annual equivalent payment A=640i=Interest…
Q: tance travelled and is given icle is given by: 200s -s²)
A: we know that a= dv/dt dv = a*dt
Q: 400N 200 Z00 N さ
A: Given Data :
Q: ine the centI ers.
A: given:
Q: Find the wark done Farce = 2 N Displacement = 0.045m
A: Given data : Force=F Displacement=d Required : Work done
Q: A vessel in Latitude 17- 45'N, Sails to Latitude 15 - 15'N, Find the difference o Latitude made?
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Q: TF 40k 3) T=300k Calculate and for 912, 913 enclosre (Wn?) 923 the
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Q: Solve for the electric power generation, in kW, of a wind turbine with 41 m diameter blades with an…
A: V=9 m/s Density=1.25 kg/m3 D=41m Find Power generation
Q: 1. Show the computation using P water ( HP) 2. Show the computation for Density of Air and Specific…
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Q: QUESTION 5 Tit x- Use parametrio differentiat ron aud find au expression fr oly m its Simplest form
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Q: given 9 cm %3D Ege =0.2
A: given:diameter d=9cmQ=0.2m3/sθ=1000
Q: Example 1: Expand the following by PF s (s+1)(s+2)
A: Given- 2s(s+1)(s+2) =As+Bs+1+Cs+2 12s(s+1)(s+2)…
Q: 1. Let a = 4S m/ sec?, V. = 5 m / sec, find V and S at the end of 4 sec.
A: Given:- Acceleration (a) = 4S m/s2 Initial velocity (Vo) = 5 m/s To Find:- Velocity (V) and…
Q: u =0 UnitsTm/s^ 2 umberT-7.4 7.4 j UnitsTm/s^ 2 umber -0.88 f you would like to Show Work for this…
A: Givenmass of slab m1=40kgmass of block m2=9kgbetween block and slabcoefficient of static friction…
Q: a. 267.9 (N)
A: Draw the FBD of the forces acting at point C Calculate the relation of tension between two wires by…
Q: 60 20 IS RID 40 90 65
A: the view shown below step 2
Q: 2. A MATHaling.com Ax 2 m 2 m C 2 m 200 N 100 N Ay Figure 1:
A: For solution refer below images.
Q: The water-plane area of the ship is 1, 679.4m² with the following half-ordinates commencing from…
A: Given: The total area of the water plane area: →A=1679.4 m2 So half area of the water plane area:…
Q: Solve for the electric power generation, in kW, of a wind turbine with 46 m diameter blades with an…
A:
Q: In a problem given area is 1.414d and d is 75mm find the h real for the given object.
A: As Givem:- A=1.4hd d=75mm
Q: ate of ess at a point is characterized by the components: Ox Txy Txz' [12 3 3 4 0 10] Tyx Тух ду Tyz…
A: Given Data⇒ State of stress is given σx=12σy=4ζxy=3 Required Data⇒ Find the values of the principal…
Q: ne volume at the beginning of this expansion?
A: To find Volume
Q: 500 N 300 N 45 2.5 m
A: The given system of force is shown below,
Q: Remake the diagram for this problem. Empasize the area of 1,2,3, 4 and refer to the solution. No…
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Q: How are you getting 16 mm at the end for an answer , "HX83=219X10^3/164.909".................is…
A: Stress, σ = FA F = 219 kNσ = 164909 kPa Substituting the values 164.909=219AA = 0.001132 m2 One…
Q: ing 2omm
A: For solution refer below images.
Q: le culate the values of prine
A: given:
Q: 12 The density of a solid is its mass divided by its volume. If the measured as 42.5 ± 0.5 g and the…
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Q: nicle is given by: 200s – s2)
A: We know that a= dv/dt dv= a. dt
Q: ᴅᴇᴛᴇʀᴍɪɴᴇ ᴛʜᴇ ᴄʜᴀɴɢᴇ ɪɴ ᴘʀᴇꜱꜱᴜʀᴇ ɪɴ ᴀʙꜱᴏʟᴜᴛᴇ ᴠᴀʟᴜᴇ ɪꜰ ᴛʜᴇ ᴘᴇʀᴄᴇɴᴛ ᴄʜᴀɴɢᴇ ᴏꜰ ᴠᴏʟᴜᴍᴇ ᴏꜰ ᴋᴇʀᴏꜱᴇɴᴇ ɪꜱ…
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Q: For the given data, the value of :distance L is Given flexural Sreas= Sees Ps: cAsectte
A: The given simply supported beam is as shown below, Since this is a symmetric beam with udl over its…
Q: The car in the graph stops moving at t = a (m/s?) 10
A: The behaviour of body in motion without external force is studied under kinematics. The behaviour of…
Q: An aerial photograph has a scale of 1:10,000. On the photo, the length of a field is measured as 10…
A: Length = L = 10 mm Width = W = 7 mm Area = A = L X W = 10 X 7 = 70 mm2 Given scale = 1:10000
Q: On F2, how to identify the if we need to multiply it by "(4/5) and (3/5) slopes"?
A: To find: How the vector form of the force F2 is obtained.
Q: the straight length of a track measured to be 2.5 mm and you know that the real ground distance is…
A: Given, measured length = 2.5 mm = 0.0025 meter Actual distance = 100 m
Q: Q2: Find the horizental and vertical component of the torce 200 N in figer
A: Consider the diagram shown below for the given system.
Q: и Find the Final uelouity д сам левоск U-2.312 mis а = 2.2 mist += 35
A: Given data : Time=t Initial velocity=U Acceleration=a Required : Final velocity
Q: Yæy 1 Exa 1 Figura 1: Problema 1
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Q: Tank B is inside Tank A. Given the information below, find the reading at PgaugeB. Please don't…
A: Given data, Patm= 101 PgaugeA= 200 PabsB= 600
Q: Kinetil energy ?
A: Given; Thickness=30 mmradius,r=300mmmass,m=30kgN=750 rpmKinetic energy ?
Q: 70 40* 1.10 m 2.00 m 1.25 m
A: (a) The center of gravity of the beam will be at the center of the beam which is shown below –
Q: Find results of forse
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Q: Please refer to the figure below., Determine R in at point C. 20 Ibf 200 kg 2501 20 KN
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Q: 2 rad/s respectively. If the maximu
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Q: ᴀ ᴘᴜᴍᴘ ᴅᴇʟɪᴠᴇʀꜱ 0.3 ᴍ3/ꜱ ᴀɢᴀɪɴꜱᴛ ᴀ ʜᴇᴀᴅ ᴏꜰ 200 ᴍ ᴡɪᴛʜ ᴀ ꜱᴘᴇᴇᴅ ᴏꜰ 2000 ʀᴘᴍ. ꜰɪɴᴅ ᴛʜᴇ ꜱᴘᴇᴄɪꜰɪᴄ ꜱᴘᴇᴇᴅ
A: Given data: Q=0.3 m3/sH=200 mN=2000 rpm Need to determine the specific speed.
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- BOOK: FLUID POWER, 3e, JAMES A. SULLIVAN PROBLEM: 13 - 18The temperature of the ball as a function of time, T(t) in thebath may be estimated by this equation:T(t) = (Ti – T∞)e–t/τ + T ∞where t is the time in seconds in the bath; Ti is the initial ball temperature;T∞ is the oil temperature; and τ is the time constant in seconds thatdepends upon the material of the ball, the geometry of the ball, and oilproperties. Assume that the initial ball temperature = 800°C, the oil temperature = 40°C, and the time constant = 50 seconds. Using MATLAB, find the time at which the temperature of the ball bearing equals 600°C, 300°C, and 50°CAir at 10 m/s is flowing over a cylinder of D=(1) cm and L = 1 m. Air has thermalconductivity 0.027 W/mK, kinematic viscosity 1.9*10-5 m2/s, and Prandtl number 0.72.Find the Nusselt number uses charts/table also if needed
- To good approximation, the thermal conductivity k of a gasdepends only on the density ρ ,mean free path l , gas constant R , and absolute temperatureT . For air at 20 8 C and 1 atm, k ≈0.026 W/(m.K) and l ≈6.5 E-8 m. Use this information to determine k for hydrogenat 20 ° C and 1 atm if l ≈ 1.2 E-7 m.Explain the relationships between system constants for a perfect gasAir is flowing naturally over a cylinder of D=(1) cm. Air has thermal conductivity 0.027W/mK, kinematic viscosity 1.9*10-5 m2/s, Rayleigh number 108, and Prandtl number0.72. Find the Nusselt number uses charts/table also if needed
- Consider a thin-walled, fi xed-volume container of volume V that holds an ideal gas at constant temperature T. It can be shown by dimensional analysis that the number of particles striking the walls of the container per unit area per unit time is given by nv-/4, where as usual n is the particle number density. The container has a small hole of area A in its surface through which the gas can leak slowly. Assume that A is much less than the surface area of the container. (a) Assuming that the pressure inside the container is much greater than the outside pressure (so that no gas will leak from the outside back in), estimate the time it will take for the pressure inside to drop to half the initial value. Your answer should contain A, V, and the mean molecular speed v-. (b) Obtain a numerical result for a spherical container with a diameter of 40 cm containing air at 293 K, if there is a circular hole of diameter 1.0 mm in the surface.Topic: Heat transfer Completely solve and box the final answer. A 20degC water flows to 50cmx60cm flat plate with velocity of 6m/s . The flat plate surface temperature is maintained at 40deg C. The water flows parallel to the 50cm side of the plate. If the kinematic viscosity of water is 78x10-8 m2/s, What is the local heat flux (Q/A) at the end of the plate (k=0.72 W/m deg C, Re=3840000, and Pr=0.7)?Water is to be boiled at atmospheric pressure in a polished copper pan by means of an electric heater. The diameter of the pan is 0.51 m and is kept at 111 deg C. What is the power required to boil the water? Tsat = 100°C; Properties of water at 100°C: Density, ρl= 961 kg/m3; Kinematic viscosity, ν = 0.293x10-6 m2/s; Prandtl Number, Pr = 1.740; Specific heat, Cpl = 4216 J/kg.K; Dynamic viscosity, μ = ρ × ν = 961 × 0.293 × 10-6 = 281.57 x10-6 Ns/m2; hfg = 2256.9 kJ/kg; ρv = 0.597 kg/m3; σ = 0.0588 N/m; Csf=0.013; n=1; Select one: a. 25964.0356 b. 52997.1101 c. 49373.4011 d. 38911.7986
- Air is flowing naturally over a cylinder of D=(15) cm. Air has thermal conductivity 0.027W/mK, kinematic viscosity 1.9*10-5 m2/s, Rayleigh number 108, and Prandtl number0.72. Find the Nusselt numberI need help calculating these values using the defined quantites: Fin using the given values (remember its units are m3/hour) the mass flux of water of the inlet stream E from the given values (make sure that it is in the correct units!) Vp= Volume of pond ** For this question, assume that Fin, Fout, and E do not change over time, and that Vp is at steady state Quantities: Pond geometry: r = 100 m; h = 8 m. cin = 0.5 g/m3 (constant over time); ci = 0.01 g/m3 Fin: The inlet stream can be approximated as rectangular in cross-section, with width w = 3 m and depth d = 1 m, and an average velocity uin = 0.5 m/s. E: The evaporation rate can be determined from the evaporative volume flux of 0.1 mm/hour.Reservoir fluid classification plays a critical role in designing and optimizing the reservoir development plan and reservoir management. With the aid of a diagram, construct the pressure-temperature (P-T) diagram for black oil reservoir and analyze their fluid characterization by incorporating the reservoir fluid behavior from the reservoir condition to the surface condition.