If the spring OB has been
stretched 45 mm and has a k = 1.0 kN/m, determine the tension in
(a) rope OA, (b) rope OC, and (c) rope OD needed to hold the mass
of 22.94 kg. Note: Rope OD is in the x-y plane. (Hint: Fsp =
k(Δx))
Homework Answers
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If the spring OB has been stretched 45 mm and has a k = 1.0 kN/m, determine the tension in (a) rope OA, (b) rope OC, and...
Determine the stretch in OA and OB spring required to hold the 19-kg Each spring has...
Determine the stretch in OA and OB spring required to
hold the 19-kg
Each spring has an unstretched length of 2 m and a stiffness of k = 320 N/m.
Each spring has an unstretched length of 2 m and a stiffness of k = 250...
Each spring has an unstretched length of 2 m and a stiffness of
k = 250 N/m
A.) Determine the stretch in OA spring required to hold
the 20-kg crate in the equilibrium position shown.
B.) Determine the stretch in OB spring required to hold
the 20-kg crate in the equilibrium position shown.
12 m 6 m
both part A and B Each spring has an unstretched length of 2 m and a...
both part A and B
Each spring has an unstretched length of 2 m and a stiffness of k 340 N/m .(Figure 1) Part A Determine the stretch in OA spring required to hold the 19-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units Figure 1 of 1 LA SOA- 1 Value Units Submit quest Answer 12 m - Part B 4 m 6 1 Determine the stretch in OB...
Each spring has an unstretched length of 2 m and a stiffness of k = 300...
Each spring has an unstretched length of 2 m and a stiffness of k = 300 N/m (Figure 1) Part A Determine the stretch in OA spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units. 30A = Value Units Submit Request Answer Part B Determine the stretch in OB spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to...
65 kN 45 kN/m 35 kN/m DI El A36 Steel . Factor of safety must be 3.0 with respect to yielding in tension or compression and 3.5 with respect to yielding irn shear. . Determine which beam will b...
65 kN 45 kN/m 35 kN/m DI El A36 Steel . Factor of safety must be 3.0 with respect to yielding in tension or compression and 3.5 with respect to yielding irn shear. . Determine which beam will be lightest. 1) Draw a shear force and moment diagrams of the beam with maximums shown and non -linear curves shown. 2) Tentatively select a beam based on max normal stress 3) Check the tentatively selected beam for max shear 4) Find...
with steps please 04. For the system shown in Figure 4 where m-10 kg, k-100 kN/m, the governing equations has been d...
with steps please
04. For the system shown in Figure 4 where m-10 kg, k-100 kN/m, the governing equations has been derived as (1) Find the natural frequencies of the system; (2) Determine the associated mode shapes; and (3) Obtain the vibration response if the initial conditions are given as x,(0)-0,x,(0)-0.001 m, 2kE TIITTTUITTU Figure 4
04. For the system shown in Figure 4 where m-10 kg, k-100 kN/m, the governing equations has been derived as (1) Find the natural...
I need the answers for #3, 4, and 5 m A block with mass m1 =...
I need the answers for #3, 4, and 5
m A block with mass m1 = 9.4 kg is on an incline with an angle 8 = 33' with respect to the horizontal. For the first question there is no friction between the incline and the block. 1) When there is no friction, what is the magnitude of the acceleration of the block? 5.3929 m/s2 Submit 2) Now with friction, the acceleration is measured to be only a = 3.63...
A 3 m rigid bar AB is supported with a vertical translational spring at A and a pin at B The bar is subjected to a linearly varying distributed load with maximum intensity g Calculate the ver...
A 3 m rigid bar AB is supported with a vertical translational spring at A and a pin at B The bar is subjected to a linearly varying distributed load with maximum intensity g Calculate the vertical deformation of the spring if the spring constant is 700 kN/m. (ans: 21.43 mm) 2. A steel cable with a nominal diameter of 25 mm is used in a construction yard to lift a bridge section weighing 38 kN. The cable has an...
use UNITS for all final answers no collaboration, no talking to each other is allowed you...
use UNITS for all final answers no collaboration, no talking to each other is allowed you can use your book and your calculator, but nothing else! (1) 10 points Three identical charges (q- -4.8 pC) lie along a circle of radius 2.0 m at angles of 30°, 150°, and 270°, as shown in the figure. (a) What is the resultant electric field at the center of the circle (magnitude and orientation)? (b) What is the electric potential at the center...
Determine the stretch in OA and OB spring required to
hold the 19-kg
Each spring has an unstretched length of 2 m and a stiffness of k = 320 N/m.
Each spring has an unstretched length of 2 m and a stiffness of
k = 250 N/m
A.) Determine the stretch in OA spring required to hold
the 20-kg crate in the equilibrium position shown.
B.) Determine the stretch in OB spring required to hold
the 20-kg crate in the equilibrium position shown.
12 m 6 m
both part A and B
Each spring has an unstretched length of 2 m and a stiffness of k 340 N/m .(Figure 1) Part A Determine the stretch in OA spring required to hold the 19-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units Figure 1 of 1 LA SOA- 1 Value Units Submit quest Answer 12 m - Part B 4 m 6 1 Determine the stretch in OB...
Each spring has an unstretched length of 2 m and a stiffness of k = 300 N/m (Figure 1) Part A Determine the stretch in OA spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units. 30A = Value Units Submit Request Answer Part B Determine the stretch in OB spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to...
65 kN 45 kN/m 35 kN/m DI El A36 Steel . Factor of safety must be 3.0 with respect to yielding in tension or compression and 3.5 with respect to yielding irn shear. . Determine which beam will be lightest. 1) Draw a shear force and moment diagrams of the beam with maximums shown and non -linear curves shown. 2) Tentatively select a beam based on max normal stress 3) Check the tentatively selected beam for max shear 4) Find...
with steps please
04. For the system shown in Figure 4 where m-10 kg, k-100 kN/m, the governing equations has been derived as (1) Find the natural frequencies of the system; (2) Determine the associated mode shapes; and (3) Obtain the vibration response if the initial conditions are given as x,(0)-0,x,(0)-0.001 m, 2kE TIITTTUITTU Figure 4
04. For the system shown in Figure 4 where m-10 kg, k-100 kN/m, the governing equations has been derived as (1) Find the natural...
I need the answers for #3, 4, and 5
m A block with mass m1 = 9.4 kg is on an incline with an angle 8 = 33' with respect to the horizontal. For the first question there is no friction between the incline and the block. 1) When there is no friction, what is the magnitude of the acceleration of the block? 5.3929 m/s2 Submit 2) Now with friction, the acceleration is measured to be only a = 3.63...
A 3 m rigid bar AB is supported with a vertical translational spring at A and a pin at B The bar is subjected to a linearly varying distributed load with maximum intensity g Calculate the vertical deformation of the spring if the spring constant is 700 kN/m. (ans: 21.43 mm) 2. A steel cable with a nominal diameter of 25 mm is used in a construction yard to lift a bridge section weighing 38 kN. The cable has an...
use UNITS for all final answers no collaboration, no talking to each other is allowed you can use your book and your calculator, but nothing else! (1) 10 points Three identical charges (q- -4.8 pC) lie along a circle of radius 2.0 m at angles of 30°, 150°, and 270°, as shown in the figure. (a) What is the resultant electric field at the center of the circle (magnitude and orientation)? (b) What is the electric potential at the center...
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