Skip to main content
Home
Smithsonian National Air and Space Museum

Header Menu

  • Activities & Multimedia
  • Ask An Explainer
  • About the Exhibit

Section Menu

  • Forces of Flight
    • The Four Forces
    • We Aren't Built to Fly
  • Gravity & Air
    • Gravity
    • Air
    • Buoyancy
  • Aerodynamics
    • Air in Motion
    • Subsonic Wings
    • Factors Affecting Lift
    • Alternative Theories of Lift
    • Pressure Drag
    • Friction Drag
    • Vortex Drag
    • Waves in the Air
    • Shock Waves
  • Propulsion
    • Propellers
    • Engines
    • Rocket Propulsion
    • Vertical Flight
  • Structures & Materials
    • Weight and Strength
    • Materials
    • Hypersonic Vehicles
    • Shaped for Space
  • Flight Dynamics
    • Control Surfaces
    • Roll, Pitch, and Yaw
    • Instruments
    • Gravity in Orbit
    • Newton’s Laws of Motion
    • Kepler’s Laws of Orbital Motion
    • Moving in Space
    • Thrusters and Spinning Wheels
  • Activities
Share
  • Twitter
  • Facebook

Newton’s 2nd Law of Motion

Illustration of Command Service Module (CSM) shooting through space.
Credit: National Air and Space Museum, Smithsonian Institution

The more mass an object has, the more force you must apply to make it accelerate—to change its speed or direction or both.

 

Categories: Flight Dynamics
Explore Activities & Multimedia

Footer Menu

  • Terms Of Use
  • Privacy
  • Kids Online Privacy Statement
  • Contact
  • About the Exhibition
  • Sponsors
  • Donate