5.1. Momentum

    Cards (53)

    • The SI unit of momentum is kg m/s
    • Match the type of collision with its property:
      Elastic collision ↔️ Kinetic energy conserved
      Inelastic collision ↔️ Kinetic energy not conserved
    • The unit of impulse is N·s
    • What is the definition of momentum in physics?
      Mass times velocity
    • What is the key difference between elastic and inelastic collisions in terms of kinetic energy?
      Kinetic energy is conserved in elastic collisions
    • No energy is lost during an elastic collision.
      True
    • The formula for momentum is p=p =mv mv, where pp represents momentum
    • What is impulse defined as in physics?
      Change in momentum
    • The Law of Conservation of Momentum states that the total momentum of an isolated system remains constant if no external forces
    • Match the type of collision with the conservation of kinetic energy:
      Elastic Collision ↔️ Conserved
      Inelastic Collision ↔️ Not Conserved
    • What is the relationship between impulse and momentum?
      Impulse = Change in Momentum
    • Inelastic collisions conserve kinetic energy.
      False
    • What is the unit of force in SI units?
      N (kg m/s²)
    • Momentum is always conserved in all types of collisions
    • What happens to kinetic energy in an inelastic collision?
      It is converted to other forms
    • The unit of momentum is kg m/s.

      True
    • The impulse-momentum equation is J=J =Δp \Delta p, where JJ represents impulse
    • The total momentum of a closed system can change if no external forces act upon it.
      False
    • In an elastic collision, both kinetic energy and momentum are conserved
    • In inelastic collisions, kinetic energy is not conserved as it is converted to other forms like heat or deformation
    • In elastic collisions, both kinetic energy and momentum are conserved.
    • Momentum is a scalar quantity.
      False
    • What happens to kinetic energy in an elastic collision?
      It is conserved
    • Steps in a collision scenario using the Law of Conservation of Momentum:
      1️⃣ Identify the isolated system
      2️⃣ Calculate the total initial momentum
      3️⃣ Determine the final conditions
      4️⃣ Apply the Law of Conservation of Momentum
      5️⃣ Solve for the unknown variables
    • Categorize the types of collisions based on momentum and kinetic energy conservation.
      1️⃣ Elastic collision: Kinetic energy is conserved
      2️⃣ Inelastic collision: Kinetic energy is not conserved
    • External forces such as friction or air resistance can prevent momentum conservation
    • In an elastic collision, the total kinetic energy before the collision equals the total kinetic energy after
    • Is momentum a vector or a scalar quantity?
      Vector
    • Match the concept with its unit:
      Momentum ↔️ kg m/s
      Force ↔️ N (kg m/s²)
      Energy ↔️ J (kg m²/s²)
    • What is the Law of Conservation of Momentum?
      Total momentum is constant
    • The ice skater example demonstrates that momentum is conserved because the final total momentum equals the initial total momentum.
      True
    • Inelastic collisions result in the conversion of kinetic energy to other forms of energy, such as heat or deformation.
      True
    • In both elastic and inelastic collisions, momentum is always conserved.

      True
    • Match the collision type with its properties:
      Elastic ↔️ Kinetic energy conserved
      Inelastic ↔️ Kinetic energy not conserved
    • What type of quantity is momentum?
      Vector
    • What is the definition of momentum?
      Mass × Velocity
    • Impulse is measured in kg m/s.
      False
    • How is the unit of momentum derived?
      p=p =mv mv
    • Momentum is conserved when the total momentum of a system remains constant
    • The Law of Conservation of Momentum applies only when external forces act on the system.
      False
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