Find the moment about the 30 lb Q3 hinge O. 50 lb 10" 30° 7"
Q: In the Figure 4, the smallest force that can be applied at the point A to produce the same moment in…
A: we have to evaluate the minimum force required to produce equivalent moment
Q: /Find the moment about 0 and its direction
A: For the above diagram, we draw the free body diagram Resolving the forces,
Q: 5) Determine the moment of the forcc about point O. 600 lb 20 05ft
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Q: 1. Find the moment of the force (200N) point o. about y50 mm 20 200N
A: Given
Q: Determine the generated moment about point O. 6 ft F₂ = 200 lb 6 ft 30° F₁ = 300 lb 30°
A: Note: Since you have asked multiple question, we will solve the first question for you. If you want…
Q: H 2.2 3 2,1 4.5 Өк 40° x
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Q: 50i - 2oj takr Deferr of f 1m 2m F=(50- Moment of furce F about O
A: Given:- F = 50i - 20j + 2k Co-ordinate of the point O is :- Point (O) = (x, y, z) = (0, 0, 0)…
Q: Determine the resultant moment about the point (A) for all forces as shown in figure below: F- 375…
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Q: A force F lb · ft about the point (– 2, 5, – 1) ft. Find F, and F,. Oi + Fyj + F¿k lb acts at a…
A: Given data: Force, F⇀=0i^+Fyj^+Fzk^ lb acts at A1,-7,7 ft. It has a moment at point B-2,5,-1 ft as:…
Q: Determine the moment of the three forces about the point A. F = 30 lb F = 20 lb 30% 70 50 lb 60° 4…
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Q: Q5) Determine the moment about the point (A) of the three forces on the beam shown in figure M = (…
A: Given data Forces acting on beam are 16N, 37N
Q: Determine the total moment about .the point B 15 in. D 60° 1o lb.in 16.in 7 in.
A: The free body diagram of the system is as follows:
Q: Determine the resultant moment about point B. 3 ft 300 lb 250 lb 13 -2.5 ft 2 ft 4 ft A + B 45° 200…
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Q: .Find Moment at point A 200N ININ إجابتك F- 500 Ib Determine the components of F, and F, in x-y and…
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Q: QI/ Determine the amount of the couple moment M needed to make the resultant moment about point O…
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Q: FInd the moment of the 25 lb force about point
A: Given Force, F = 25 lb Distance from B, D = 8 in Find Moment about B, M
Q: Given that the moment along axis AC is 150 Ib.ft. Find the vector force, F. 3 ft 2 ft F A В 4 ft…
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Q: In the given figure, Find the y coordinate of point A so that the 400 N force will have a clockwise…
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Q: The force P is applied perpendicular to the portion BC of the bent bar. Find the moment of P about…
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Q: 2. Determine the moment of the four forces acting on the rod as in the fig. about point 'o' 40 N N…
A: The free body diagram for the body is given below,
Q: QI/ Determine the resultant moment of the four forces acting on the rod shown in figure about point…
A: As we know, Moment about a point = Force × Perpendicular distance of Line of action of force from…
Q: In the given figure, Find the y coordinate of point A so that the 361 Ib force will have a clockwise…
A:
Q: Find the moment about A & B where AB = 8m, BC = CD = 6m & all forces makes 40° to the C3 %3D…
A: Moment about point A is 15.678 kN-m (clockwise). Moment about point B is 63.6858 kN-m (clockwise).
Q: Determine the moment of the force about point O. 600 lb 20 0.5 ft 5 ft 30°
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Q: Determine the resultant moment of the four forces acting on the rod shown in figure about point O.…
A: Varignon's Theorem: Moment of a force about any point is equal to the sum of the moments of the…
Q: Find the couple moments acting on the gear. F = 350 N 40° 0.5 m 40° F = 350 N (a)
A: In the given figure the vertical component of side 350 N force and horizontal component of lower…
Q: A B 24 in. 60 lb 12 in. 40 in.
A: The force is shown below, Calculate the angle θ with the horizontal, tanθ=1240θ=tan-11240θ=16.7°
Q: 3. Given that resultant moment vector along the negative x-axis is 500 Nm, find the value of F.
A: Given Data: The moment of the couple is Mx =-500 N-m. The moment of the force about the x-axis due…
Q: Q1. Determine the resultantt moment 6 +be fig. show n below:
A: 1. Given Data: The given forces are F1= 200 N and F2=800 N. The force of 800 N can be resolved in…
Q: 8. Determine the resultant moment produced by the forces about point O. F2 200 lb 6 ft 6ft 30 F 300…
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Q: Determine the moment of Q about point C. The magnitude of Q is 25 lb. A 8 ft B 3 ft 4 ft
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Q: Find the moment about the Q3 hinge O. 30 lb 10" 50 lb 30° 7"
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Q: By the force shown in find the moment around the Points 10 point, as 400 newtons 0.4 m 0.2 m 30…
A: Force is 400 N Vertical component of force Fcos30°=400cos30°=346.41N Horizontal component of force…
Q: Q1/ Find the moment about 0 and its direction 3 ft- 1 ft 45° 55 N 36° 42 N
A: We are suppose to solve only one question. Please post other question as a separate question.
Q: Find the moment about A, B, C,D and E of the forces shown below. AB = 8m, BC = 10m, CD = 3m and AE =…
A: It is very basic question of mechanics. Moment about any point is product of force and perpendicular…
Q: Determine the moment of Q about point O. The magnitude of Q is 25 lb. 8 ft B 4 ft
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Q: Determine the moments of Q about (a) point 0; and (b) point C. The magnitude of Q is 100 N.
A: GIVEN: The magnitude of Q =100 N TO FIND: The moment of Q about (a) point O (b) point C
Q: In the given figure, Find the y coordinate of point A so that the 361 lb force will have a clockwise…
A: Given :- Force (F) = 361 lb Clockwise Moment about point O = 400 ft lb To Find :- Y-coordinate of…
Q: * Find the moment about point B 48 lb -55 30 in. 130° B 40 in. 20 lb 20° 20 20 lb A
A: To determine the moment about Point B.
Q: b) Compute the moment of the force about point O as shown in Figure 4. F = 200 N 40° 50 0.6 m 0.7 m
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Q: Calculate the moment about the center of the bolt.
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Q: Given: F1={9 i - 9 j+ 10 k}lb F2={-10 i +10 j+10 k}lb Find: the Magnitude of the Resultant moment in…
A: Here the arm for moment of given forces about 'O' is: r⇀OA=4i^+5j^+3k^ Moment of forces 'F1' and…
Q: Find the moment (in Nm) caused by the force F = 388 about point C if a = 25 , b = 37 , m =17, and n…
A: A moment is a movement of the body when a body is rotating on an axis. The moment is also known as…
Q: x = 4 m y = 0.6 m F = 5 kN theta = 47 degrees Find the Moment of F (in kN-m) about A. Which way…
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Q: Determine the moment of the 175-lb force about point A and about point 0. 42" B 26" 22° F = 175 lb
A: Given: AB=42 inAO=26 inF=175 lbθ=22°
Q: 6) Determine the moment of the forcc about point 0. 500N 3m
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Q: Find the moment of the force F on the pivot O. F-0.4 lb| 10 30
A: Moment acting about point O is…
Q: Determine the total moment about .the point B 15 in. D 60 1o lb. in 7 in. B elalal
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Q: Q (5): Determine the moment the force F= 25 lb about 3 in) point C 5 in 7 in. 50
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Q: Find the moment a bout at point A 100mm 100mm 200N 150N 45 --Ad 15N.m 200mm 40N.m 80N
A: F1=150 and components of this F1Horizontal =150×cos45Vertical=150×sin45F2=200 and components of…
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- i [ 4=l Fal @ docs.google.com/forms () Iromgenerai norary. - O true O false Static structural simulation needs at least three boundary conditions * @ True O False Study —state thermal needs maximum one boundary conditions * O true @ False Ansys coordinate system is global n coordinate system. O O >What mathematical relationship exists between the wave speed and the density of the medium, using the POWER trendline equation from the graph? Make your response specific (i.e., describe the full mathematical proportionality between the two variables) Feel free to use the table. Table: Frequency (Hz) Density (kg/m) Tension (N) Speed (cm/s) Wavelength (cm) 0.85 0.1 4.0 632.5 744.12 0.85 0.7 4.0 239.0 281.18 0.85 1.3 4.0 175.4 206.35 0.85 1.9 4.0 145.1 170.709.16. One kind of thermodynamic diagram that is useful in engineering problems is the P–H diagram, in which the x-axis is molar enthalpy and the y-axis is pressure.(a) Several kinds of iso-lines can be drawn in such a diagram, including isotherms(constant temperature), isentrops (constant entropy), and isochores (constant molar volume). For each of these three cases, find expressions for the slope of these lines on a P–H diagram in terms of measurable properties.(b) Find expressions for these slopes for the ideal monatomic gas, in terms of T and P. Explain on physical grounds any unusual results
- Suppose we got the following data during a test of a 2- stroke engine in which gas is usedas a fuel:Diameter of the piston = 149 mmStroke length = 179 mmClearance volume = 0.88 literrpm of the engine = 302Indicated mean effective pressure = 6.0 barGas consumption = 6.0 m3/hCalorific value of the gas (fuel) = 16990 kJ/m3Make a clear sketch the geometry of this engine using the data and determine thefollowing:i. Indicated power developed by the engine in watt.ii. Air Standard Efficiencyiii. Indicated thermal efficiency of the engine.I am using eq 3.117 in Shigley's 10ed: m*x-double dot+b*x-dot+k*x=(1/2)C_x*(e_c)^2 Since x-double dot=X-dot=0, equations becomes: k*x=(1/2)C_x*(e_c)^2 then plug in eq 3.110, C_x=(n*E_0*w)/d Then solve for x. Does this look correct?QUESTION ONEUse dimensional analysis and chain link conversion to perform the indicatedconversions.A. 0.8mile/hour to m/sB. 0.0065km2 to m2C. 5500cm3 to m3D. 435000m2 to km2 QUESTION TWOA person in a kayak starts paddling, and it accelerates from 0 to 0.8 mile/hour in adistance of 0.8km. If the combined mass of the person and the kayak is 80kg, whatis the magnitude of the net force acting on the kayak? QUESTION THREEDiscuss three (3) applications and limitations of dimensional analysis?QUESTION FOURState the principle of homogeneity of dimensions? QUESTION FIVEA. A value of the acceleration of free fail g was determined by measuring the periodof oscillation T of a simple pendulum of length l. The relation between g, T andl is given by: ? = 4?(? /?2) In the experiment, l was measured as 0.55±0.02 m and T was measured as1.50±0.02 s. Find the:i. Value of gii. Uncertainty in the value of g B. (a) State newton’s second law of motion and write an equation.(b)Define the term INERTIA. (c)…
- Use dimentional analysis to evaluate that in a problem involving shallow water waves (figure 6), both the Froude number and the Reynold's number are relevant dimensionless parameters. The wave speed, c of waves on the surface of a liquid is a function of depth h, gravitational acceleration g, fluid density, p and fluid viscosity μ. Manipulate your II's to get the parameters into the following form: Fr = c/(gh)1/2= f(Re) , where Re = pch/μFor the Following question Graph all 4 : [I just need all 4 graphs and please explain and make clean solution] Position vs time Velocity vs time Acceleration vs time Force vs time [For your convenience, I have solved the numerical solutions for the problem] (Please Look at the picture since it is much cleaner) Question : A 550 kilogram mass initially at rest acted upon by a force of F(t) = 50et Newtons. What are the acceleration, speed, and displacement of the mass at t = 4 second ? a =(50 e^t)/(550 ) [N/kg] v = ∫_0^t▒(50 e^t )dt/(550 )= v_0 +(50 e^t-50)/550=((e^t- 1))/11 x = ∫_0^t▒(e^t- 1)dt/(11 )= x_0 +(e^t- t - 1)/(11 ) a(4s)=(50*54.6)/550= 4.96[m/s^2 ] v(4s)=((e^4-1))/11= 4.87[m/s] x(4s)=((e^4- 4 - 1))/11= 4.51 [m]The drag on an airplane wing in flight is known to be a function of the density of air (), the viscosity of air(), the free-stream velocity (U), a characteristic dimension of the wing (s), and the shear stress on the surface of the wing (s). Show that the dimensionless drag, sU2, can be expressed as a function of the Reynolds number, Us.
- 1. Circle weather the following statements are true or false. If the statement is true justify your reasoning if the statement is false correct the statement to make it true or justify why it is false a. Impulse is the integral of a force vs distance graph b. In two dimensions analyzing linear and angular momentum provides up to three scalar equations. c. Linear acceleration and angular acceleration both have units of ft/s^2 or m/s^2 d. When absolute motion or a rigid body it is important to find a function that relates linear and angular position then integrate to find velocity e. Instantaneous centers can only be determined for velocity and only for a snapshot in timeFind the local maximum and minimum values and saddle point(s) of the function. You are encouraged to use a calculator or computer to graph the function with a domain and viewpoint that reveals all the important aspects of the function. (Enter your answers as comma-separated lists. If an answer does not exist, enter DNE.) f(x, y) = 9 sin(x) sin(y), −? < x < ?, −? < y < ? local maximum value(s) local minimum value(s) saddle point(s) (x, y) =Hi please help with this question thank you I just can't seem to work it out even with the given formulas. Thanks! also, I have tried these but they seem to be incorrect, or maybe parts of the calculation may be incorrect since when I submit these all together and I can't really work out where I am going wrong: sigma 1 = 73.31 MPa theta 1 = 56.87 degrees sigma 2 = 18.68 MPa theta 2 = 146.875 degrees Tmax in plane = 27.315 MPa theta s = 101.87 degrees