The mass center Gof the 1235-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. -1356 mm-905 mm-
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- The homogeneous bar AB weighs 25 lb. Determine the magnitudes of the forces acting on the bar at A and B. Neglect friction.Find the stable equilibrium position of the system described in Prob. 10.56 if m = 2.06 kg.The 14-kN weight is suspended from a small pulley that is free to roll on the cable. The length of the cable ABC is 20 m. Determine the horizontal force P that would hold the pulley in equilibrium in the position x=5m.
- The uniform bar of weight W is held in equilibrium by the couple C0. Find C0 in terms of W, L, and .The mass center G of the 1470-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. Answers: GO -1348 mm-882 mm- Normal force under each of the front tires: N₁= Normal force under each of the rear tires: N₁ = eTextbook and Media GO Tutorial F DA Z Z N NThe mass center Gof the 1490-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. -1290 mm-976 mm- Answers: Normal force under each of the front tires: N; = i N Normal force under each of the rear tires: N, = N z z
- The mass center G of the 1540-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. Answers: GO 1283 mm-871 mm Normal force under each of the front tires: Nf= Normal force under each of the rear tires: N₁ = i 3054 i 4499 ! N NThe mass center G of the 1405-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. 1382 mm-859 mm Answers: Normal force under each of the front tires: N- N Normal force under each of the rear tires: N, - N i iThe mass center G of the 1235-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. -1282 mm-883 mm Answers: Normal force under each of the front tires: Nf= i N Normal force under each of the rear tires: N₁= i N
- 97 lll i docs.google.com/forms/d/e, o when you upload files and submit this form. Not adyan.rashid.etcn3@student.atu.edu.iq? Switch account Q/ The mass center G of the 1400-kg rear- engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. 1386 mm - 964 mm Nf= 1500, Nr= 2500 Nf= 2200, Nr= 4050 Nf= 2800, Nr= 4500 None of ablove Nf= 2820, Nr= 4050 Upload the solveThe mass center G of the 1350-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. -1338 mm-967 mm-The mass center G of the 1515-kg rear-engine car is located as shown in the figure. Determine the normal force under each tire when the car is in equilibrium. State any assumptions. Answers: 1290 mm-973 mm- Normal force under each of the front tires: N₁= Normal force under each of the rear tires: N₁ = i N N