Free-Body Diagrams
- Forces are pushes or pulls that occur due to the interaction between objects
- In physics, during force interactions, it is common to represent situations as simply as possible without losing information
- When considering force interactions, objects are represented as point particles
- These point particles should be placed at the centre of mass of the object
- Forces are represented by arrows because forces are vectors
- The length of the arrow gives the magnitude of the force, and its direction gives the force's direction
- The below example shows the forces acting on an object when pushed to the right over a rough surface
Point particle representation of the forces acting on a moving object
- The below example shows the forces acting on an object suspended from a stationary rope
Forces on an object suspended from a stationary rope
Free-body Diagrams
- As situations become more complex, there are often multiple forces acting in different directions on multiple objects
- To simplify these situations, free-body force diagrams can be used
- Free-body force diagrams show:
- Multiple forces acting on one object
- The direction of the forces
- The magnitude of the forces
- Each force is represented as a vector arrow
- The length of the arrow represents the magnitude of the force
- The direction of the arrow shows the direction in which the force acts
- Each force arrow is labelled with either:
- a description of the type of force acting and the objects interacting with clear cause and effect
- The gravitational pull of the Earth on the ball
- the name of the force
- Weight
- an appropriate symbol
- Fg
- a description of the type of force acting and the objects interacting with clear cause and effect
- Free body diagrams can be used to:
- identify which forces act in which plane
- determine the resultant force
- The rules for drawing a free-body diagram are:
- Multiple forces acting on one object
- The object is represented as a point mass
- Only the forces acting on the object are included
- The forces are drawn in the correct direction
- The forces are drawn with proportional magnitudes
- The forces are clearly labelled
Free-body diagrams for different situations
- The most common forces to apply are:
- Weight (Fg) - always towards the surface of the planet
- Tension (FT) - always away from the mass
- Normal Reaction Force (FN) - perpendicular to a surface
- Frictional Forces (Ff) - in the opposite direction to the motion of the mass
Worked example
Draw free-body diagrams for the following scenarios:
Answer:
(a) A picture frame hanging from a nail:
- The size of the arrows should be such that the 3 forces would make a closed triangle as they are balanced
(b) A box sliding down a slope:
- There are three forces acting on the box:
- The normal contact force, FN, acts perpendicular to the slope
- Friction, Ff, acts parallel to the slope and in the opposite direction to the direction of motion
- Weight, Fg, acts down towards the Earth
Worked example
A toy sailboat has a weight of 30 N, and is floating in water. The boat is being pulled to the right with a force of 35 N. The boat has a total resistive force of 5 N.
Draw a free-body force diagram for the toy sailboat.
Answer:
Step 1: Identify all of the forces acting upon the object in question, including any forces that may be implied
- Weight = 30 N downward
- Buoyancy from the water (as the object is floating) = 30 N upward
- Applied force = 35 N to the right
- Drag force = 5 N to the left
Step 2: Draw in all of the force vectors (arrows), making sure the arrows start at the object and are directed away
Exam Tip
When labelling force vectors, it is important to use conventional and appropriate naming or symbols such as:
- Fg or Weight or mg
- FN for normal reaction force
Using unexpected notation will lose you marks.
Make sure your arrows are roughly to scale with respect to the other forces in the image. In the second worked example, the 5 N force arrow needs to be considerably shorter than the 35 N arrow. This shows clearly that there is a resultant force to the right.