knowt logoknowt logo
HomeExploreExamsBlog
knowt logoKnowt
Rating
5.0(1)
Exam Icon
Take a practice test
Flashcard Icon
undefined Flashcards
0.0(0)

Studied by 0 people

Tags
Explore Top Notes
Storms 1: Meteorology Basics
noteNote
studied byStudied by 4 people
5.0 Stars(1)
Coming
noteNote
studied byStudied by 10 people
5.0 Stars(1)
Chapter Thirteen: Sexual Disorders and Gender Variations
noteNote
studied byStudied by 2 people
5.0 Stars(1)
Einheit 4: Ernährung – Verdauungssystem
noteNote
studied byStudied by 5 people
5.0 Stars(1)
Chapter 10: Membrane Structure
noteNote
studied byStudied by 15 people
5.0 Stars(1)
Health Psychology: Managing Chronic Illness
noteNote
studied byStudied by 2 people
5.0 Stars(1)
knowt logo

Newton's First and Second Laws

A force is needed to change motion

Newton’s first law says that a resultant force is needed to make something start moving, speed up or slow down

If the resultant force on a stationary object is zero, the object will remain stationary. If the resultant force on a moving object is zero, it’ll just carry on moving at the same velocity

So when a train or car or bus or anything else is moving at a constant velocity, the resistive and driving forces on it must all be balanced. The velocity will only change if there’s a non-zero resultant force actin on the object.

  • A non-zero resultant force will always produce acceleration in the direction of the force

  • This acceleration can take five different forms: starting, stopping, speeding up, slowing down and changing direction

  • On a free diagram, the arrows will be unequal

Acceleration is proportional to the resultant force

  • The larger the resultant force acting on an object, the more the object accelerates-the force and the acceleration are directly proportional. You can write this as F=a

  • Acceleration is also inversely proportional to the mass of the object-so an object with a larger mass will accelerate less than one with a smaller mass

  • There’s a formula that describes Newton’s second law:

    F=ma, Resultant force, mass x acceleration

  • You can use this to get an idea of the forces involved in everyday transport, large forces are needed to produce large acceleration

L
Home
Home
Science
Science
Physics
Physics

Newton's First and Second Laws

A force is needed to change motion

Newton’s first law says that a resultant force is needed to make something start moving, speed up or slow down

If the resultant force on a stationary object is zero, the object will remain stationary. If the resultant force on a moving object is zero, it’ll just carry on moving at the same velocity

So when a train or car or bus or anything else is moving at a constant velocity, the resistive and driving forces on it must all be balanced. The velocity will only change if there’s a non-zero resultant force actin on the object.

  • A non-zero resultant force will always produce acceleration in the direction of the force

  • This acceleration can take five different forms: starting, stopping, speeding up, slowing down and changing direction

  • On a free diagram, the arrows will be unequal

Acceleration is proportional to the resultant force

  • The larger the resultant force acting on an object, the more the object accelerates-the force and the acceleration are directly proportional. You can write this as F=a

  • Acceleration is also inversely proportional to the mass of the object-so an object with a larger mass will accelerate less than one with a smaller mass

  • There’s a formula that describes Newton’s second law:

    F=ma, Resultant force, mass x acceleration

  • You can use this to get an idea of the forces involved in everyday transport, large forces are needed to produce large acceleration