MECHANICAL MECHANICAL ADVANTAGEADVANTAGE
K WARNEK WARNE
Moment of ForceMoment of Force The moment of a force about a point is the product of the The moment of a force about a point is the product of the magnitude magnitude
of the forceof the force and the and the perpendicular distanceperpendicular distance from the point to the from the point to the line of the force.line of the force.
Calculating TorqueCalculating Torque
Calculate the moment of the force, or ……………., due to each force when several forces act on the same object using the equation:
= …………= …………
F 2
F1
== …………………….. ……………………..When calculating torque the ……………………………………………. of all the PERPENDICULAR FORCES must be used.
………………
Calculating TorqueCalculating Torque
Calculate the moment of the force, or torque, due to each force when several forces act on the same object using the equation:
= F= F r r
F 2
F1
F2
== (F (F11. r. r11) + (F) + (F22.r.r22))When calculating torque the VECTOR SUM of all the PERPENDICULAR FORCES must be used.
TORQUE
EquilibriumEquilibrium Know that for an object to be in equilibrium …………. the sum of the
…………. acting on the object and the sum of the …………………. of the forces must be ……………….
Solve problems involving objects in equilibrium.
F2
F3F1
FORCES (Linear) in equilibrium .: …………………...
MOMENTS in equilibrium .: Choose a fulcrum. (…..)
………………………………………………………………….
x1 x2
If a 60 Kg person stands 2 meters from one end of a 3 meter scaffolding plank what force is needed to support each end of the plank?
EquilibriumEquilibrium Know that for an object to be in equilibrium BOTH the sum of the
FORCES acting on the object and the sum of the MOMENTS of the forces must be ZERO.
Solve problems involving objects in equilibrium.
F2
F3F1
FORCES (Linear) in equilibrium .: F1 + F2 + F 3 = 0
MOMENTS in equilibrium .: Choose a fulcrum. (F1)
(F1.0) + (F2.x1) + (F3.x2) = 0
x1
x2
If a 60 Kg person stands 2 meters from one end of a 3 meter scaffolding plank what force is needed to support each end of the plank?
EquilibriumEquilibrium Know that for an object to be in equilibrium BOTH the sum of the
FORCES acting on the object and the sum of the MOMENTS of the forces must be ZERO.
F2
FORCES (Linear) in equilibrium .: F1 + F2 + F 3 = 0
MOMENTS in equilibrium .: Choose a fulcrum. (F1)
(F1.0) + (F2.x1) + (F3.x2) = 0
x1 x2
If a 60 Kg person stands 2 meters from one end of a 3 meter scaffolding plank what force is needed to support each end of the plank?
F1
LeversLevers
• Describe the terms “load” and “effort” for a lever• Define “mechanical advantage” as the ratio of
“load/effort” and calculate the mechanical advantage for simple levers.
LeversLevers• Describe the terms “load” and “effort” for a lever• Define “mechanical advantage” as the ratio of
“load/effort” and calculate the mechanical advantage for simple levers
LoadEffortEffortE
L
el
If equilibrium: E x eIf equilibrium: E x e = L x l = L x l
Mechanical AdvantageMechanical Advantage
Mechanical Advantage is the RATIO of the LOAD to the Mechanical Advantage is the RATIO of the LOAD to the EFFORT.EFFORT.
Apply the concept of mechanical advantage to everyday situations.
Mechanical Advantage =
?
N
Mechanical AdvantageMechanical Advantage
Mechanical Advantage is the RATIO of the LOAD to the Mechanical Advantage is the RATIO of the LOAD to the EFFORT.EFFORT.
Apply the concept of mechanical advantage to everyday situations.
Mechanical Advantage = Load
Effort
N
Types of LeversTypes of Levers
Types of LeversTypes of Levers
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