if 2. m= yağ-kütle sönümleyici sistemi aşağıda verilmiştir. 10 kg. b 30 N-s m. k 1000 Nm. P ||| 10N and co- 2 rad/s what is the steady state response at the output - v(t) =? input p(t)=? www. -p(t) = P. sin ar
Q: The accelearation of the hip is not 0.59 m/s^2
A:
Q: Grandpa/Shutterstock.com 7.3-26 An element in plane stress on the surface of an automobile drive…
A: σx=-45 MPaσy=? MPaτxy=39 MPaσ1=41 MPa
Q: 16. What is the minimum diameter (in inches) in a shaft subjected to a fluctuating shearing load of…
A: “Since you have posted multiple questions, we will provide the solution only to the first question…
Q: what is the technique of direct integration conventiontly used for
A: The use of technique of direct integration.
Q: Discussion: 1. Compare the two lines on your graph. Discuss where the preparation/takeoff, flight,…
A: Given:
Q: A well-insulated turbine operating at steady state develops 20 MW of power for a steam flow rate of…
A: Given data: Power devloped W˙=20 MWinitial pressure P1=5 barfinal pressure P2=0.06 barInitial…
Q: The body and bucket of a skid steer loader has a weight of 2060 lb, and its center of gravity is…
A: The speed of the loader. Given: The weight of the body and bucket is P=2060 lb. The weight of each…
Q: A 1-m-wide rectangular gate is hinged about a horizontal axis along its lower edge Determine the…
A:
Q: The two wheels of the vehicle are connected by a 19-kg link AB with center of mass at G. The link is…
A:
Q: Draw the Shear & Moment Diagrams and sketch the defected shape for the beams shown below (Indicate…
A: Here a beam with loading is given, we will draw the shear force , bending moment & deflected…
Q: An ammonia ice plant operates between a condenser temperature of 35°C and evaporator of -15°C. It…
A: Given data is
Q: A 55 kW refrigeration load is to be carried by an air refrigeration system with a discharge pressure…
A:
Q: 5The prime function of an accumulator is to A) Develop flow in a system B) Maintain pressure in a…
A: The prime function of an accumulator.
Q: In order to experimentally determine the moment of inertia Ig of a 4-kg connecting rod, the rod is…
A:
Q: The cross section of a rubber V belt is shown. If the belt has circular shape about the axis of…
A:
Q: 33. Which belt is a positive drive? a. Vee b. Cogged 34 Ising DE datorm c. Flat d. Synchronous
A: 33) Solution: Positive belt drives are known that which doesn't occur slip during the transmission.
Q: 2) Water enters a two-dimensional, square channel of constant width, h = 10 cm, with uniform…
A:
Q: A hollow shaft is subjected to an axial load P and a torque T, acting in the directions shown in…
A:
Q: 11Fluid power energy primarily directed and controlled by A) Cylinders B) Electricity C) Pumps D)…
A: 11] Fluid power energy is primarily directed and controlled by pumps and valves. Pumps are used to…
Q: AUTOCAD List the absolute coordinates, relative coordinates, and polar coordinates. Starting point:…
A: It is asked to find the absolute, relative and polar coordinates of the corners shown below
Q: The mass center of the rear-engine 3120-lb car is at G. Determine the normal forces NA and Ng…
A: According to the given data mg=3120lb μ=0.95 We need to find Reaction at the front and rear tires…
Q: Question 2: For the given Fe-C phase duagram (a) Compute the mass fractions of a ferrite and…
A:
Q: If the wall in following figure is 4 m long, calculate the total force on the wall due to the oil…
A:
Q: A steel column of 19-ft effective length must carry a centric load of 338 kips. Using Allowable…
A: The length of column, L = 19 ft The allowable load, P = 338 kips The depth of column, h = 12 in The…
Q: The slider block A is moving downward at v₁ = 7 m/s. (Figure 1) Figure B 250 mm 400 mm 30° D 300 mm…
A:
Q: Since the force on the wheel is F = 3.4 kN, as in the figure, calculate the joint force FA and the…
A: Given Data
Q: Determine the pump work of the oil piping system. The oil has kinematic viscosity of 0.0001 m²/s and…
A: Given:Kinematic viscosity of the oil, ν=0.0001 m2/sSpecific gravity of the oil, SGoil=0.79Pipe…
Q: A simply-supported beam is supported beam is shown in Figure 6. Assume El is constant... Determine…
A:
Q: Problem 10.1 A simple Rankine cycle operates with a low pressure of 50 kPa and a high pressure of 5…
A: The condenser pressure, Pc = 50 kPa The boiler pressure, Pb = 5 MPa The isentropic efficiency of…
Q: 26. Basic dynamic load rating is the load that a bearing can be subjected to while achieveing…
A: 26)According to the standards of bearing design, Basic dynamic load rating is the load at which a…
Q: At the instant shown, the angular velocity of rod BE is 4.4 rad/s counterclockwise. A 240 mm EO B…
A:
Q: The U-bar shown below has a circular cross section with a diameter of 1 in. For the loading shown,…
A: d=in
Q: The pendulum consists of a disk having a mass of 7 kg and slender rods AB and AC which have a mass…
A: The moment of inertia. Given: The mass of the disk is md=7 kg. The mass of the rod is m=2 kg/m.
Q: A cylindrical pressure vessel 4 ft in diameter is welded using a spiral seam that makes an angle of…
A:
Q: identify the relationship of the height of a fluid column and its exit velocity at the bottom of the…
A: To be explained:- the relationship of the height of a fluid column and its exit velocity at the…
Q: 4. A particle has an initial velocity of 3 ft/s to the left at so = 0 ft. Determine its position…
A: The acceleration of particle a=2 ft/s2 The initial velocity u= -3 ft/s The initial displacement so=0…
Q: Describe the differences between first and third angle projection. Which do we use here in the…
A: According to the given data We need to describe The first and third angles of the projection
Q: A Cu-Ni alloy must be fully liquid at 1350°C for processing. However, when placed in service the…
A: Given Data: To Find: (i) Determine the composition range in which the alloy must lie.(ii) To…
Q: Determine the force in member BE of the loaded truss. The force is positive if in tension, negative…
A:
Q: 2. Calculate the room temperature saturation current and the forward current at 0.3V for a…
A: Room Temperature T=300K Active area A = 10-8m2 Constant C = 1019 A/m2K2 The work function is taken…
Q: Open to atmosphere when Р PAM = 10³ Pa, g = 10m/s², Pst = 1000kg/m² PSU Find the water pressure of…
A: PAM=103Pag=10 m/s2Pst=1000 kg/m2hs=5m
Q: In the system shown below, determine the length of the common perpendicular between lines AE and BD.…
A: Given: The weight, W = 2200 lb
Q: flat belt is wrapped around a Ø2.00-inch pulley for 220°.Calculate the belt wrap in radians.
A: The angle of wrapped around a pulley,(θ)=220o Diameter of the pulley, (d) =2 in. Calculate the belt…
Q: Assuming the pulley system below is weightless and frictionless, determine the reaction force (FR)…
A: According to the given data W=1525 N We need to find FR
Q: Dimension decreasing for the area to volume ratio leads to:
A: This concept is based on the concept of effect of dimension on ratio of area to volume.
Q: If the collar P is given a constant acceleration a 1.5g to the right, the pendulum will assume a…
A:
Q: Find the absolute coordinates, relative coordinates, and polar coordinates. (AutoCAD) GIVEN:…
A: It is asked to find the absolute, relative and polar coordinates of the corners shown below
Q: lập Bao Yoy chao 8.22 Design a Douglas fir-Larch No. 1 beam to support the load shown. Fb = 1,300…
A: To Design : The Douglas fir-larch No.1 beam to support the load. Given: The stresses are Fb=1300…
Q: Question 4: Using the following TTT diagram for an iron-carbon alloy of eutectoid composition,…
A: Note: As per Bartleby Answering guidelines, we are supposed to give answer for first three…
Q: The strain rosette shown below was used to obtain normal strain data at a point on the free surface…
A:
Step by step
Solved in 4 steps with 3 images
- The temperature of a catalysed exothermic reaction is being maintained at T1°C as it promotes generation of a particular product. It is proposed to control the temperature with a proportional only controller of gain Kc. The temperature dynamics of the reactor can be modelled as a mixture of a CSTR (1st order) and PFR (dead time) to changes either in inlet temperature, or in the heating/cooling jacket flowrate via Ke-tas Ts+1 i) Considering a change in inlet temperature show why a 1st order model for a CSTR and a dead time model for a PFR are appropriate. CSTR - continuous stirred tank reactor PFR - plug flow reactorThe response of a system 1s given by x(t) = 0.003 Cos Böt +0.0045in 30t m. Defermine the amplitude Og motion, the frequency in Hz, the frequency in rad/s, the frequency n rpm, the phase angle and the responce in the form of x(t)= Asn(wk tp) og mction, the period1 Problem You are given the following data (below) showing the steady-state output response, x(t), of a mass-spring-damper (stable, LTI) system to a sinusoidal input u(t) = A sin(wt). This snapshot is the response after all the transients have decayed (the time is shifted to start at zero for conve- nience). x 0.5225 Displacement pu(t) Sinusoidal force input x 0.1041 1.5 1 Y2 х 0.2783 Y1.372 0.5 h ok -0.5- -1 -1.5 x(t) M Assume: bl u(t) x(t) Horizontal Plane (no gravity) 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 Time (sec) www k Using only the data provided above (the blue line is the input u(t) and the red line is the output x(t)), determine: 1. The frequency of the input in rad/s 2. The amplitude of the input, A 3. The frequency of the output in rad/s 4. The output-input ratio |G(iw)| = max(x(t)) max(u(t))' at the particular input frequency shown. 5. The phase (also called phase lag) of the output, $, at the particular input frequency shown in degrees. Note the phase is generally…
- PLEASE GIVE COMPLETE AND DETAILED SOLUTION The oven shown in Figure 1 has a heating element, qi with capacitances C = 50 J/K. The corresponding temperature is T and ambient temperature is Ta. The thermal resistance of the oven wall is R = 2 K-s/J. The system has a steady-state error in the response, T(t) to a change in the reference input. The steady state error can be reduced if a proportional control action, Kp is included in the controller. Determine the range of values of Kp of the system so that the steady state error is lower than 0.4. (Hint: Kindly determine the steady state error at value 0.4)iv. G(s): = 54 s²+12s+36 a) Find the location of the poles, natural frequency and damping ratio values. b) Determine the forms and write the general expression for the unit step response. c) Find Css (steady state value) and Peak value:.... d) ******** Revise each transfer function to produce unit step response double approximately two tim slower ....................2- Using Matlab, what are the step response curves of the closed-loop system, as shown in fig.1. the feedback represents the second-order dynamic system. (fill in the following table) For=0.4 Wn 1 3 6 9 10 R(S) 0.1 0.3 0.6 0.9 1 For w 5 rad/sec 3 Settling time Peak response 2 Wn s(s+23wn) Settling time Peak response C(s) Discuss the follow Which parameters or w occur on the rise time of the response? Which parameter increases the speed of response? Which parameters can be decreases the response amplitude? Which parameter decreases the steady error state? fig.2
- H.w 2: The open loop response, that is, the speed of the motor to a voltage input of 20V, assuming a system without damping is dw 20 = (0.02) + (0.06)w. dt If the initial speed is zero (w(0) = 0) ,and using the Runge-Kutta 4th order method, what is the speed at t = 0.8s? Assume a step size of h = 0.4s.(c) An electronic Pl temperature controller has an output p of 15 mA when the set point equals the nominal process temperature. The controller response to step change in the temperature set point of 3 mA is shown below. t(s) 0- 0+ 20 60 80 Determine the controller gain K, and the integral time.r p (mA) 8,0 6,8 6.0 4.4 3.6össlg äbäi What is the the transfer function of the first-order system which has the impulse response curve as in * ?the following figure Impulse Response 1.8 1.6 1.4 1.2 System: sys Time (seconds): 0.333 Amplitude: 0.737 1 0.8 Slop 0.6 0.4 0.2 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 Time (seconds) 1/(s+3) O 2/(s+3) O 6/(s+3) O No one of the answers in a, b, and c ( Amplitude 2.
- A test was undertaken to find the dynamic properties of a SDOF system. The measured transient response recorded is shown in Figure QA2a. If the stiffness of the system is 1,000 N/m estimate: i) the damping ratio, ii) the undamped natural frequency, and iii) the mass of the system. Displacement (m) 0.08 0.06 0.04 0.02 O -0.02 -0.04 -0.06 -0.08 Figure QA2a 0.5 Time (s) 1.5 216:13 1 Done A dewisprod.uwe.ac.uk AA [syn3-alhinai) Dewis @ UWE UWE University Wetef Bristol gn GCET Test 1 (Chapters 2, 3 and 4) The Questions Information Question 1. Submit All Answers Find the steady state solution of the forced Mass-Spring-Damper with the Time Left following parameters undergoing forcing function F(t). Question 1 - m = 4.2 kg, c= 31 Ns/m, k = 1124 N/m, F(t) = 39 cos(6t) not complete Question 2 in the form of x(t) = A cos(6t – 8) not viewed yet Question 3 Enter your answers for A and & to four decimal places in the appropriate not viewed yet Question 4 boxes below: not viewed yet А: 8 :For the pole plot given below, which pole will have the fastest decrease in exponential transient response? jw O Save X X X X k z y x k