Three springs are connected to a mass and to fixed supports. When the coordinate y is equal to zero, there is no spring force. Your tasks: k₂ m k3 Fload Figure 1: System schematic for Problem 1. A Draw the free body diagram for the mass m including all 3 spring forces and the load force Fload). B Draw the free body diagram for the mass m, but combine the springs into one equivalent spring with spring constant keq. Write the equivalent stiffness of the spring keq in terms of the other spring constants. (3 C Given that k = 300 N/m, k₂ = 100 N/m, and k3= 200 N/m, and Fload = 300 N, calculate the loaded deflection loaded www

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Three springs are connected to a mass and to fixed supports. When the
coordinate y is equal to zero, there is no spring force. Your tasks:
Tw
m
k3
Fload
Figure 1: System schematic for Problem 1.
A Draw the free body diagram for the mass m including all 3 spring forces and the load force Fload).
B Draw the free body diagram for the mass m, but combine the springs into one equivalent spring with spring
constant keq. Write the equivalent stiffness of the spring keq in terms of the other spring constants. (3
C Given that k₁ = 300 N/m, k₂ = 100 N/m, and k3 = 200 N/m, and Fload = 300 N, calculate the loaded deflection
Yloaded i
D Compute the amount of potential energy stored in each spring.
E Compute the forces, in Newtons, in each spring and denote them as F₁, F2, and F3 when the load from Part D
is applied.
www
Transcribed Image Text:Three springs are connected to a mass and to fixed supports. When the coordinate y is equal to zero, there is no spring force. Your tasks: Tw m k3 Fload Figure 1: System schematic for Problem 1. A Draw the free body diagram for the mass m including all 3 spring forces and the load force Fload). B Draw the free body diagram for the mass m, but combine the springs into one equivalent spring with spring constant keq. Write the equivalent stiffness of the spring keq in terms of the other spring constants. (3 C Given that k₁ = 300 N/m, k₂ = 100 N/m, and k3 = 200 N/m, and Fload = 300 N, calculate the loaded deflection Yloaded i D Compute the amount of potential energy stored in each spring. E Compute the forces, in Newtons, in each spring and denote them as F₁, F2, and F3 when the load from Part D is applied. www
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Follow-up Question
Three springs are connected to a mass and to fixed supports. When the
coordinate y is equal to zero, there is no spring force. Your tasks:
Tw
m
k3
Fload
Ő
nly
A Draw the free body diagram for the mass m including all 3 spring forces and the load force Fload). (
Figure 1: System schematic for Problem 1.
B Draw the free body diagram for the mass m, but combine the springs into one equivalent spring with spring
constant keq. Write the equivalent stiffness of the spring keq in terms of the other spring constants. (3
C Given that k₁ = 300 N/m, k₂ = 100 N/mnd k3 = 200 N/mand Fload = 300 N, calculate the loaded deflection
Yloaded
D Compute the amount of potential energy stored in each spring.
E Compute the forces, in Newtons, in each spring and denote them as F₁, F2, and F3 when the load from Part D
is applied.
Wh
Transcribed Image Text:Three springs are connected to a mass and to fixed supports. When the coordinate y is equal to zero, there is no spring force. Your tasks: Tw m k3 Fload Ő nly A Draw the free body diagram for the mass m including all 3 spring forces and the load force Fload). ( Figure 1: System schematic for Problem 1. B Draw the free body diagram for the mass m, but combine the springs into one equivalent spring with spring constant keq. Write the equivalent stiffness of the spring keq in terms of the other spring constants. (3 C Given that k₁ = 300 N/m, k₂ = 100 N/mnd k3 = 200 N/mand Fload = 300 N, calculate the loaded deflection Yloaded D Compute the amount of potential energy stored in each spring. E Compute the forces, in Newtons, in each spring and denote them as F₁, F2, and F3 when the load from Part D is applied. Wh
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Follow-up Question

solve D and E only

Three springs are connected to a mass and to fixed supports. When the
coordinate y is equal to zero, there is no spring force. Your tasks:
Tw
m
k3
Fload
Figure 1: System schematic for Problem 1.
A Draw the free body diagram for the mass m including all 3 spring forces and the load force Fload).
B Draw the free body diagram for the mass m, but combine the springs into one equivalent spring with spring
constant keq. Write the equivalent stiffness of the spring keq in terms of the other spring constants. (3
C Given that k₁ = 300 N/m, k₂ = 100 N/m, and k3 = 200 N/m, and Fload = 300 N, calculate the loaded deflection
Yloaded i
D Compute the amount of potential energy stored in each spring.
E Compute the forces, in Newtons, in each spring and denote them as F₁, F2, and F3 when the load from Part D
is applied.
www
Transcribed Image Text:Three springs are connected to a mass and to fixed supports. When the coordinate y is equal to zero, there is no spring force. Your tasks: Tw m k3 Fload Figure 1: System schematic for Problem 1. A Draw the free body diagram for the mass m including all 3 spring forces and the load force Fload). B Draw the free body diagram for the mass m, but combine the springs into one equivalent spring with spring constant keq. Write the equivalent stiffness of the spring keq in terms of the other spring constants. (3 C Given that k₁ = 300 N/m, k₂ = 100 N/m, and k3 = 200 N/m, and Fload = 300 N, calculate the loaded deflection Yloaded i D Compute the amount of potential energy stored in each spring. E Compute the forces, in Newtons, in each spring and denote them as F₁, F2, and F3 when the load from Part D is applied. www
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