Hooke's Law Introduction - Force of a Spring

Flipping Physics

18 Mar 201809:34

Summary

TLDRThe video demonstrates Hooke's Law, which explains the linear relationship between the force applied to a spring and its displacement from the equilibrium position. The presenter uses a force sensor and meter stick to show how force increases as the spring is compressed. The data is plotted, illustrating a negative slope, and the spring constant is calculated. The video clarifies concepts like the spring constant, restoring force, and the significance of the negative sign in the equation. The law holds until the spring reaches its elastic limit, beyond which it no longer obeys Hooke's Law.

Takeaways

🔬 Robert Hooke was a 17th-century English scientist known for coining the term 'cell' and formulating Hooke's Law.
⚖️ Hooke's Law states that the force of a spring is proportional to its displacement from equilibrium, represented as F = -kx.
📏 The spring constant (k) represents the force required to compress or stretch a spring by one meter, measured in Newtons per meter (N/m).
📉 A graph of spring force vs. displacement shows a linear relationship, with a negative slope indicating the force is opposite to displacement.
🧲 The spring force is a restoring force, meaning it always acts to return the spring to its equilibrium (rest) position.
⚠️ Hooke's Law only applies within a spring's elastic limit—beyond that, the spring is permanently deformed, and the law no longer holds.
🧮 The y-intercept of the best-fit line for force vs. displacement is zero, and the slope corresponds to the negative of the spring constant.
↔️ The negative sign in Hooke’s Law shows that the spring force and displacement are in opposite directions.
🎯 The AP Physics 1 equation sheet removes the negative sign in Hooke's Law by using absolute values for force and displacement.
🛠️ Hooke's Law is useful for calculating both the force required to compress a spring and predicting the displacement for a given force.

Q & A

Who was Robert Hooke and what is his contribution to science?
-Robert Hooke was an English scientist who lived in the 17th century. He is credited with being the first to use the term 'cell' to describe the basic units of life he observed under a microscope.
What is Hooke's Law and how is it demonstrated in the video?
-Hooke's Law states that the force required to compress or expand a spring is linearly proportional to the displacement of the spring from its equilibrium position. In the video, this is demonstrated by compressing a spring with a force sensor and measuring the force as the displacement increases.
What is the significance of the slope in the spring force vs. displacement graph?
-The slope of the line in the spring force vs. displacement graph represents the negative spring constant (k). The magnitude of this slope gives the value of the spring constant, which tells us how much force is required to compress or extend the spring per meter.
Why is there a negative sign in Hooke's Law?
-The negative sign in Hooke's Law indicates that the direction of the spring force is opposite to the direction of the displacement from the equilibrium position. For example, if the spring is compressed to the left, the force pushes to the right.
What is the spring constant and how is it measured?
-The spring constant (k) is a measure of how much force is required to compress or expand a spring per unit of displacement. It is calculated as the slope of the force vs. displacement graph, and its units are typically Newtons per meter (N/m).
What is meant by the equilibrium or rest position of a spring?
-The equilibrium or rest position of a spring is the position where the spring is neither compressed nor stretched, and no external force is applied. Displacement is measured from this position when the spring is compressed or expanded.
What is a restoring force, and how does it relate to Hooke's Law?
-A restoring force is a force that acts to bring an object back to its equilibrium position. In the case of a spring, the spring force acts as a restoring force, always directed towards returning the spring to its rest position.
What happens if a spring exceeds its elastic limit?
-If a spring is stretched or compressed beyond its elastic limit, it becomes permanently deformed and will not return to its original shape. Hooke's Law no longer applies once the spring reaches this point.
How are the units of the spring constant derived?
-The spring constant is derived from Hooke's Law, which states that force equals the spring constant times displacement. Using standard units, force is measured in Newtons, and displacement is in meters, so the spring constant is in Newtons per meter (N/m).
How can we use the spring constant to predict force or displacement?
-Once the spring constant (k) is known, we can use Hooke's Law to predict the force for a given displacement or the displacement for a given force. For example, if the displacement is known, the spring force can be calculated by multiplying the displacement by the spring constant.