Changes in Energy Storage in Systems

At the end of the lesson you will understand how energy is stored and transformed in different systems.
At the end of the lesson you will be able to calculate the kinetic energy of a moving object using the given equation.
At the end of the lesson you will be able to calculate the elastic potential energy stored in a stretched spring using the provided equation.

When a system changes, the storage and transformation of energy can take various forms.

Kinetic energy, Ek: The energy of a moving object, which can be calculated using the equation Ek = 0.5 * m * v^2.

Elastic potential energy, Ee: The energy stored in a stretched spring, calculated as Ee = 0.5 * k * e^2.

Rockets, trolleys, skydivers, cars, boiling water - all involve energy transformations.

Understand energy storage and transformation in different systems.
Calculate kinetic energy of a moving object.
Calculate elastic potential energy stored in a stretched spring.

System: An object or group of objects considered for energy analysis.
Kinetic energy, Ek: The energy of a moving object, which can be calculated using the equation Ek = 0.5 * m * v^2.
Elastic potential energy, Ee: The energy stored in a stretched spring, calculated as Ee = 0.5 * k * e^2.
Spring constant, k: A factor that describes the stiffness of a spring, measured in Newtons per metre (N/m).
Extension, e: The length by which a spring is stretched or compressed from its original length, measured in metres (m).