The engine of a plane rotates clockwise when viewed from the front. The moment of Inertia of all the rotating parts 370 Kym² The engine rotates at 980 rpm. a) Calculate the Magnitude and effect of the gyroscopic actia resulting when the plane makes a right hand turn of radius 4500m at a speek of 2000km/h. 6) Explain the gyroscopic reaction torque.
Q: An ogee spillway has a design flow rate of 14,100 cfs (ft/sec). An energy dissipater is being…
A: Given data: Design flow rate of the ogee spillway, Qprototype = 14,100 cfs (ft³/sec) Initial depth…
Q: A driving sprocket with 12 teeth drives another sprocket with 48 teeth by means of a chain having a…
A: According to the given data Number of teeth on driving sprocket (N1) = 12 Number of teeth on driven…
Q: cylinder with a piston diameter of 4" supports a load stable 10,000 lbs vertical. a) Calculate the…
A: This question is based on the concept of fluid mechanics.
Q: 2. Disc A has a radius of 600mm. a) What is the moment of the forces about the center of the disc?…
A: Both moment and torque are related to rotational motion and are often used interchangeably. However,…
Q: DERIVE THE EQ GIVEN IN THE QUESTION.
A:
Q: A hot wire anemometer was calibrated in an air jet at ambient temperature TO = 26.3 °C and a wire…
A: Given data: ambient temperature, T0 = 26.3 °C Wire temperature, Tw = T = 140 °C Stagnation air…
Q: Q24. For the below figure please write its part program. The depth of the cut is 0.25 inches…
A:
Q: 3. The Duffing equation describes a nonlinear oscillator with a nonlinear spring (energy storage…
A: Given: md2xdt+cdxdt+kx+εx3=ft To find: General solution
Q: Q1. State whether each of the two statements included in your input values for Q1 are true or false:…
A: We will answer the first question. Please resubmit the question which you would like to be answered…
Q: An oil supply of 1 kg/is heated from 15 C to 70 C. A 0.3 kg/s supply of water at 95 C is available.…
A: Giivenmo=1 kg/sTo1=15oCTo2=70oCmw=0.3 kg/sTw1=95C
Q: Consider the flow of motor oil (cp=2048 J/kg K) through a copper tube of thin wall at a rate of 0.3…
A: Given: Hot oil:Specific heat of motor oil, cph=2048 J/kg.KMass flow rate of oil, m˙h=0.3 kg/sOil…
Q: For the stress element below, when a = 9, b = 4, and c = 5, the principal stress σ2 , the smallest…
A: Givena=9b=4c=5
Q: Problem Statement Based on Problems 10-19/20 from the textbook. Determine the moment of inertia of…
A:
Q: The global stresses in a three-ply laminate are given at the top and bottom surface of each ply in…
A: Solution: Given Data: t=0.005 inA=4 in × 4 in To Find: (a) Resultant force component Nx for the…
Q: Consider the truss shown in (Figure 1). Set P = 8 kN, P₂ = 10 kN, and P3 = 5 kN. Figure APK ALA P3 3…
A:
Q: It can be shown that the point of the highest stress is on the outside of the shaft, just next to…
A:
Q: Question 4 In this open question, you are asked to propose a concept design and analyse a simple…
A: (b) (i) Air Conditions at the Inlet/Intake to the Wind Tunnel: For this proposed wind tunnel, the…
Q: The pin-connected structure shown in the figure consists of two cold-rolled steel (E = 30,000 ksi)…
A: E = 30000 Ksi for two cold-rolled steel bar (1) E = 15000 Ksi for bronze bar (2) Cross section area…
Q: In the figure, we must apply a force of magnitude 83.0 N to hold the block stationary at x = -3.00…
A:
Q: set up the integrals but do not solve them. Assume that the system is damped and you know ζ (only do…
A: (a) Draw the given diagram.
Q: A helicopter starts from rest at point A and travels along the straight-line path with a constant…
A: Given: The initial speed of the helicopter, u = 0 The speed of helicopter at an altitude of 38…
Q: A vapor-compression refrigeration cycle with refrigerant-134a as the working fluid is used to…
A:
Q: Problem 7.33 Consider the motor mounted on a cantilever beam in figure shown below. The motor has a…
A:
Q: 3-21 Complete this table for H₂O: T. °C 220 190 P. kPa 400 2500 4000 1, kJ/kg 1450 3040 Phase…
A: For: 1. At 400 kPa or 0.4 MPa : ug=2553.1 kJ/kguf=604.65 kJ/kgu=1050 kJ/kgAs,u<ugWet…
Q: 11. A cantilever beam is subjected to three vertical forces and a moment as shown in Figure 11.…
A: “Since you have posted multiple questions, we will provide the solutiononly to the first question as…
Q: Determine the total distance traveled until the car stops. show it with solution. thank you!
A:
Q: F12-12. The sports car travels along a straight road such that its position is described by the…
A: Given Plot V-t and a-t
Q: all relevant Free Body Diagrams.
A: Given
Q: Determine the normal force, shear force, and moment at point C. Take that P= 12 kN and w=8…
A:
Q: Problem 15.83 The two hockey pucks A and Beach have a mass of 250 g. (Figure 1) Figure 60 m/s 45°…
A:
Q: A closed, rigid tank contains a two-phase liquid-vapor mixture of Refrigerant 22 initially at -20°C…
A:
Q: 1) Determine the clamping force exerted on the smooth pipe B( NB) Express your answer to three…
A:
Q: 50 lb. and the At the instant shown (0-60°), the kid has a velocity of 10 ft/s. The weig weight of…
A:
Q: In this open question, you are asked to propose a concept design and analyse a simple supersonic…
A: (a) Brief Literature Review on Wind Tunnels: Wind tunnels are experimental facilities that are used…
Q: Choose all that apply. Tendency for a column to buckle is dependent on: Shape of its corss…
A: To find: The correct option.
Q: Calculate the inside diameter of the pipes at the inlet and outlet a hydraulic pump whose volume…
A: Given : flow rate Q = 40 Lit/min = 40 x 10-3 m³ / 60 sec = 6.67 x 10-4 m³/s entry velocity V₁ =…
Q: The 7-kg collar has a velocity of 8 m/s to the right when it is at A. It then travels down along the…
A:
Q: Problem 19.2 After failures occurred in several cast-iron bearing housings an engineering testing…
A:
Q: An eighteen-wheel truck is rated at a gross (total) load carrying capacity of 260,000 lbs (including…
A: Given data Total load = 260000(lb) Contact area = 12"×12" Find the tire pressure required to carry…
Q: Q13 For the given state of stress, draw Mohr's circle and determine (a) the principal planes, and…
A:
Q: A Stirling cycle operating with air as working substance has a pressure of 80psia, a temperature of…
A: Stirling cycle is a modification of the Carnot cycle. It consists of two isothermal processes (T₂=…
Q: Does the moment of inertia change with respect to the reference point?
A: The moment of inertia is the property of the body to oppose the angular acceleration which is to…
Q: B.2 A thin, semielliptical plate has a mass m. Determine the mass mo- ment of inertia of the plate…
A: Given data: *The mass of the semi-elliptical plate is m. Let the thickness of the plate be t. Thus,…
Q: A Body Weighs 180N In Air And 100N When Immersed In Water, Find (A) Volume And (B) Specific Gravity…
A: This question is based on the concept of fluid mechanics.
Q: The 55-lb crate is given a speed of 12 ft/s int=4s starting from rest. The acceleration is constant.…
A: The given information in the problem is shown in the following attached image:
Q: The man has a mass, m. He plans to scale the vertical crevice using the method shown. If the…
A:
Q: What is the difference between laminar and turbulent flow, and how does this affect fluid mechanics…
A: In fluid mechanics, laminar and turbulent flow are two types of fluid flow that have different…
Q: The frame shown in the figure is subjected to a horizontal force F = {300i } N. Determine the…
A:
Q: The allowable shear stress is Tallow = 650 psi. The supports at A and B are smooth. Part A Determine…
A: Given data: Allowable shear stress, τallow = 650 psi To find: w = ?
Q: Can you give a more detailled explanation for part C and answer to the following question please:…
A: Given
Please make answer clear and easy to understand.
Step by step
Solved in 3 steps with 1 images
- A spacecraft must be maneuvered through an angle of 6O-deg in 30 s. The spacecraft moment of inertia is 8000 kg-m^2; the thrusters are located at a radius of 2.2 m from the center of mass. What is the minimum thrust level for the thrusters? Answer : 1.90 N. Don't give me wrong answers. correct answer is 1.90....show me howA solid spare, a solid disk, and a thin hoop are all released from rest at the top of the incline (ho = 20.0 cm). a) without doing any calculations, decide which object would be spinning the fastest when it gets to the bottom. (Explain) b) again, without doing any calculations, decide which object would get to the bottom first. (Which one has greater translational speed?) think CoE. c) assuming all objects are rolling without slipping, have a mass of 2.00 kg and a radius of 3.00 cm, find the rotational and translational speed at the bottom of the incline of any one of these three objects.A 50 N force is applied 50 cm from the axis of rotation of a rigid body. The body starts from rest and completes 5 revolutions in 2.5 s. Calculate the Moment of Inertia of the body.
- An electric motor has a rotor with a mass moment of inertia of 22 ft-lb-s2. What torque is required to accelerate it from rest to 1,174 rpm in 3.6 seconds? Provide your answer in lb-ft and round to the nearest whole number. An electric motor has a rotor with a mass moment of inertia of 22 ft-lb-s2. What torque is required to accelerate it from rest to 1,174 rpm in 3.6 seconds? Provide your answer in lb-ft and round to the nearest whole number.Can tutor explain step by step and also the explanation such as like why use that formula and why is it this cannot. below is the questions need to answer by using the diagram 1)Calculate the velocity of the arm, observed by a stationary person on the ground. 2)Draw the FBD of the combined body (crane body, arm and load). 3)Is the combined body stable? Why? 4)Calculate the moment of the following, about wheel A,i) combined crane bodyii) load mass 5)Which combined body’s component(s) will not fail? Why? (Hint: The crane was initially in equilibrium.) 6)What are the various limits (maximum or minimum) for the combined body to be stable? Explain why.A drum of mass Ma and radius a rotates freely withinitial angular velocity ωa0. A second drum with mass Mb and radiusb > a is mounted on the same axis and is at rest, although it is free torotate. A thin layer of sand with mass Ms is distributed on the innersurface of the smaller drum. At t = 0, small holes in the inner drumare opened. The sand starts to fly out at a constant rate λ = dm/dtand sticks to the outer drum. (a) Explain, in detail, why the angularvelocity of the inner drum will remain constant. (b) Determine theangular velocity of the outer drum ωb(t). Ignore the transit time ofthe sand
- 5) In ice figure skating, a couple execute a “top” (see picture). The centre of mass of the woman (58 kg) is situated 1.3 m from the axis of rotation which is vertical and passes through the centre of mass of the man (85 kg). They are spinning at a constant angular velocity equal to 3.1415 rad/s and the man and woman have moments of inertia, about their own centres of mass, equal to 1.6 and 2.5 kg.m2 respectively. Then the woman grabs the neck of the man. At this point, her moment of inertia decreases to 1.4 kg.m2 and her body centre of gravity is 0.9 m from the axis of rotation. Determine the new angular velocity. Hints: This is a conservation of angular momentum problem, and needs the parallel axis theorem to determine moments of inertia about the axis of rotation. The skaters are moving as one body with one angular velocity, but they each have their own moments of inertia given relative to their own CoMs. For the man, that’s fine…the axis they’re rotating about passes through his…A cylinder with rotational inertia 0.050 kg m2 is spinning with angular velocity 25 rad/s, clockwise with negligible friction about a vertical axis. A second cylinder that is not spinning is centered above and dropped onto the spinning cylinder. Kinetic friction produces torque of amount 0.60 Nm that affects both objects until the two cylinders spin together at angular velocity 18 rad/s, clockwise. (a) Determine the amount of time it takes for friction to cause the two objects to spin together.(b) Determine the rotational inertia of the second cylinder that was dropped onto the first.(c) Determine the total amount of heat and sound energy resulting from the interaction of the cylinders.Hello, can you help me answer this question with complete solution and illustration. *A Land Cruiser having a mass of 1500 kg goes through an intersection and i stravelling from north to south when it is hit by a Mitsubishi Pajero of mass 220 kg travelling from east to west. The two cars slid as one due to impact and stops 5.39 m west and 6.43 m south measured from impact point. It is known that the coefficient of kinetic friction between the cars and the road is 0.75. How fast each of the car is travelling before collision?
- Four masses A, B, C and D are attached to a shaft and revolve in the same plane. The masses are 24 kg, 20 kg, 21 kg, and 18 kg, respectively and their radii of rotations are 50 cm, 50 cm, 60 cm and 30 cm. the angular position of the masses B, C, and D are 60º, 135º and 270º from the mass A. the shaft is rotating with a constant angular speed ω = 500 rpm. We need to find : 1. The magnitude and direction of the resultant inertia force before balancing 2. The magnitude and direction of the balancing mass at a radius of 10 cm The magnitude of the resultant force, in Newton, before balancing is = The direction of resultant force before balancing measured in degree CCW from the mass A is = The magnitude of the balancing mass in kg is = The direction of the balancing mass measured in degree CCW from the mass A the magnitude of resultant force after balancing is =The cranks and connecting rods of a four cylinder in-line engine running at 2000 rpm are 60mm and 240mm each respectively. The cylinders are spaced 150 mm apart. If the cylinders are numbered 1 to 4 in sequence from one end, the cranks appear at intervals of 90º in an end view in the order 1-4-2-3.The reciprocating mass for each cylinder is 15 kg. Determine (i) unbalanced primary and secondary forces, (ii) unbalanced primary and secondary couples with reference to central plane of the engineThe mass of flywheel of an engine is 8 tonnes and the radius of gyration is 1.8 metres. It is found from the turning moment diagram that the fluctuation of energy is 100 kN-m. If the mean speed of the engine is 150 r.p.m., find the maximum and minimum speeds.