4.7 Work, energy, and power

    Cards (52)

    • Work is calculated using the formula W = Fd cosθ
    • Work is a scalar quantity.
      True
    • Electrical energy is carried by moving electric charges
    • What is the definition of the Joule (J) in terms of force and distance?
      1 N moving 1 m
    • What is power defined as?
      Rate of energy transfer
    • Match the type of power with its definition:
      Average Power ↔️ Total work divided by time
      Instantaneous Power ↔️ Power at a specific instant
    • If the angle between force and displacement is , the work done is positive.

      True
    • The work-energy theorem states that work done equals the change in kinetic energy.
    • An object of 2 kg moving at 5 m/s has 50 J of work done on it. What is its final kinetic energy?
      75 J
    • The formula for the work-energy theorem is W = ΔKE = KE_f - KE_i
    • Arrange the following actions based on their effect on kinetic energy:
      1️⃣ Positive work done
      2️⃣ No work done
      3️⃣ Negative work done
    • A 2 kg object initially moving at 5 m/s has 50 J of work done on it. Its final kinetic energy is 75
    • The Joule is the SI unit of work, equivalent to 1 Newton meter.

      True
    • Match the type of energy with its definition and example:
      Kinetic Energy ↔️ Energy of motion, a moving car
      Potential Energy ↔️ Stored energy due to position, a ball held high
      Thermal Energy ↔️ Energy associated with temperature, heat from a fire
      Chemical Energy ↔️ Energy stored in chemical bonds, food digestion
    • What is the formula for calculating power?
      P = W/t
    • There are two types of power: average power and instantaneous power.
    • Arrange the following factors based on their effect on work done:
      1️⃣ Greater magnitude of force
      2️⃣ Larger distance moved
      3️⃣ Angle between force and displacement
    • A force of 50 N pushes a box 3 meters at an angle of 30°. The work done is approximately 129.9 J.
    • What is work done when a force causes an object to move a distance?
      Energy transfer
    • What is the SI unit of work?
      Joule (J)
    • Match the type of energy with its definition:
      Kinetic Energy ↔️ Energy of motion
      Potential Energy ↔️ Stored energy due to position
      Thermal Energy ↔️ Energy of random atom motion
    • What happens to an object's energy when positive work is done on it?
      Energy increases
    • Work is a vector quantity.
      False
    • Power is calculated using the formula P = W/t
    • What is the unit of power?
      Watt (W)
    • What is the work done when a force of 50 N pushes a box 3 m at an angle of 30°?
      129.9 J
    • What happens to kinetic energy when negative work is done on an object?
      Decreases
    • What does the work-energy theorem state?
      Work equals change in KE
    • In the work-energy theorem, W represents the work done in Joules.

      True
    • What happens to kinetic energy when positive work is done on an object?
      It increases
    • What is the formula for calculating work when a force moves an object a distance?
      W = Fd cosθ
    • Is work a scalar or vector quantity?
      Scalar
    • Positive work increases energy, while negative work decreases
    • The unit of power is the Watt, equivalent to 1 Joule per second.

      True
    • What formula is used to calculate work done when a force is applied at an angle to the direction of movement?
      W = Fd cosθ
    • What happens to work done if the angle between the force and displacement is 90°?
      Work is zero
    • What is the relationship between work done and the change in kinetic energy according to the work-energy theorem?
      W = ΔKE
    • The work-energy theorem is expressed as W
    • Match the type of work done with its effect on kinetic energy:
      Positive work ↔️ Increases kinetic energy
      Negative work ↔️ Decreases kinetic energy
      No work done ↔️ Kinetic energy remains constant
    • In the kinetic energy formula, 'm' represents the mass