Physics / Newtonian Mechanics

Static And Kinetic Frictional Model Of Mass M = 1 Kg

Explore "Static And Kinetic Frictional Model Of Mass M = 1 Kg" as an interactive EJS simulation for mechanics.

Open Simulation MOE Mirror Source ZIP

Static And Kinetic Frictional Model Of Mass M = 1 Kg preview image

1. Watch or Launch

Watch on YouTube

Launch the Interactive

Open the simulation, adjust the controls, and compare what changes on screen before answering the concept-check questions.

Launch Interactive

2. Big Ideas

Key idea Friction is a contact force that can adjust up to a limiting static value before sliding begins. Once the object slips, kinetic friction acts opposite the relative motion and the resultant force determines the acceleration.

What Students Can Learn

Distinguish static friction from kinetic friction.
Compare applied force, limiting friction, and resultant force.
Use force arrows or graphs to decide whether the object stays at rest or accelerates.
Connect normal reaction and coefficient of friction to maximum frictional force.

Guiding Question

At what point does the object change from staying at rest to slipping, and what force evidence shows that transition?

3. Try the Investigation

Predict the Threshold

Before changing the applied force, predict whether the block will stay at rest or slide.

Increase Force Slowly

Raise the applied force in small steps and watch how friction responds before motion begins.

Compare Static and Kinetic Cases

Once sliding begins, compare the friction value and acceleration with the just-before-slipping case.

Explain with Resultant Force

Use the difference between applied force and friction to explain the observed motion.

4. Teacher Notes

Lesson Use

Use this as a threshold lesson: students should see static friction as adjustable, not as a fixed force.

Discussion Prompts

Ask: Why can friction increase while the block remains stationary? What changes when the block starts moving? How does resultant force explain the velocity graph?

Teaching Moves

Have students mark three moments: below limiting friction, at the threshold, and after sliding. Require a free-body diagram for each.

5. Concept Check

These questions are generated from the topic and the concept illustrated by the simulation. Use them after students have explored the model.

Concept Score

Correct first attempts build a streak and unlock higher point multipliers on this device.

0page points

0current streak

x1multiplier

0best streak

Answer each question once to build your streak.

1. What happens to static friction as a small applied force is increased but the block remains at rest?

2. When does the block begin to slip?

3. Once the block is sliding, which friction model usually applies?

4. Which quantity best explains whether the sliding block accelerates?

5. Why is a free-body diagram useful here?

7. Learning Pulse

Anonymous activity counts show that this resource is being discovered and used.

--currently viewing

--total page views

Updating anonymous page activity...