2 cylinders, one blue, one red are stuck inside a square recipient. The dimensions are: Width of the recipient I = 135cm Radius of the blue cylinder r₁ = 51cm Radius of the red cylinder r₂ = 28cm The mass of the cylinder are: Mass of the blue cylinder: m₁ = 8kg Mass of the red cylinder: m₁ = 5kg The goal is to find all the forces applied to both cylinders. Using the triangle 0.0₂, E find the angle theta. Hint: Find the distance OE Draw the FBD of the red cylinder, include known force in blue and unknown force(s) in red add the direction of the force(s). Width of the recipient | = 135cm Radius of the blue cylinder r₁ = 51cm Radius of the red cylinder r₂ = 28cm The mass of the cylinder are: Mass of the blue cylinder: m₁ = 8kg Mass of the red cylinder: m₁ = 5kg The goal is to find all the forces applied to both cylinders. Using the triangle 0,0₂, E find the angle theta. Hint: Find the distance O₁E. Draw the FBD of the red cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). Write the equations of equilibrium. Solve for those unknown force(s). Draw the FBD of the blue cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). Write the equations of equilibrium. Solve for those unknown force(s). Do you think the forces(s) found make sense and why? In the box below enter the magnitude of the normal force at point A in N with one decimal. . Width of the recipient | = 135 cm Radius of the blue cylinder r₁ = 51 cm Radius of the red cylinder r2 = 28 cm The mass of the cylinder are: • Mass of the blue cylinder: m₁ = 8 kg • Mass of the red cylinder: m2 = 5 kg The goal is to find all the forces applied to both cylinders. 1. Using the triangle O₁, O2, E find the angle theta. Hint: Find the distance O₁E. 2. Draw the FBD of the red cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). 3. Write the equations of equilibrium. 4. Solve for those unknown force(s). 5. Draw the FBD of the blue cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). 6. Write the equations of equilibrium. 7. Solve for those unknown force(s). 8. Do you think the forces(s) found make sense and why? In the box below enter the magnitude of the normal force at point A in N with one decimal.

not use ai please

Transcribed Image Text:

2 cylinders, one blue, one red are stuck inside a square recipient. The dimensions are: Width of the recipient I = 135cm Radius of the blue cylinder r₁ = 51cm Radius of the red cylinder r₂ = 28cm The mass of the cylinder are: Mass of the blue cylinder: m₁ = 8kg Mass of the red cylinder: m₁ = 5kg The goal is to find all the forces applied to both cylinders. Using the triangle 0.0₂, E find the angle theta. Hint: Find the distance OE Draw the FBD of the red cylinder, include known force in blue and unknown force(s) in red add the direction of the force(s). Width of the recipient | = 135cm Radius of the blue cylinder r₁ = 51cm Radius of the red cylinder r₂ = 28cm The mass of the cylinder are: Mass of the blue cylinder: m₁ = 8kg Mass of the red cylinder: m₁ = 5kg The goal is to find all the forces applied to both cylinders. Using the triangle 0,0₂, E find the angle theta. Hint: Find the distance O₁E. Draw the FBD of the red cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). Write the equations of equilibrium. Solve for those unknown force(s). Draw the FBD of the blue cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). Write the equations of equilibrium. Solve for those unknown force(s). Do you think the forces(s) found make sense and why? In the box below enter the magnitude of the normal force at point A in N with one decimal.

Transcribed Image Text:

. Width of the recipient | = 135 cm Radius of the blue cylinder r₁ = 51 cm Radius of the red cylinder r2 = 28 cm The mass of the cylinder are: • Mass of the blue cylinder: m₁ = 8 kg • Mass of the red cylinder: m2 = 5 kg The goal is to find all the forces applied to both cylinders. 1. Using the triangle O₁, O2, E find the angle theta. Hint: Find the distance O₁E. 2. Draw the FBD of the red cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). 3. Write the equations of equilibrium. 4. Solve for those unknown force(s). 5. Draw the FBD of the blue cylinder, include known force in blue and unknown force(s) in red, add the direction of the force(s). 6. Write the equations of equilibrium. 7. Solve for those unknown force(s). 8. Do you think the forces(s) found make sense and why? In the box below enter the magnitude of the normal force at point A in N with one decimal.