大象传媒

Changes in energy stores - AQACalculation of energy changes

Energy can be described as being in different 鈥榮tores鈥. It cannot be created or destroyed but it can be transferred, dissipated or stored in different ways.

Part of Physics (Single Science)Energy

Calculation of energy changes

Calculating kinetic energy

The amount of in a moving object can be calculated using the equation:

\(kinetic~energy= \frac{1}{2}\times mass \times speed^2\)

\(E_{k} = \frac{1}{2}~m~v^{2}\)

This is when:

  • kinetic energy (Ek) is measured in joules (J)
  • mass (m) is measured in kilograms (kg)
  • speed (v) is measured in metres per second (m/s)

Example

An apple of mass 100 g falls from a tree. It reaches a speed of 6 m/s before landing on Isaac鈥檚 head. What is the gain of kinetic energy of the apple?

\(E_{k} = \frac{1}{2}~m~v^{2} \)

\(E_{k} = \frac{1}{2} \times 0.1 \times6^{2} \)

\(E_{k} = \frac{1}{2} \times 0.1 \times 36\)

\(E_{k} = 1.8~J \)

Question

How much kinetic energy does a 30 kg dog have when it runs at 4 m/s?

Calculating elastic potential energy

The amount of stored in a stretched spring can be calculated using the equation:

\(elastic~potential~energy= \frac{1}{2} \times spring~constant \times extension^{2}\)

\(E_{e}=\frac{1}{2}~k~e^{2}\)

This is when:

  • elastic potential energy (Ee) is measured in joules (J)
  • spring constant (k) is measured in newtons per metre (N/m)
  • extension (e) is measured in metres (m)

Example

Robert stretches a spring with a spring constant of 3 N/m until it is extended by 50 cm. What is the elastic potential energy stored by the spring?

\(E_{e} = \frac{1}{2}~k~e^{2}\)

\(E_{e} = \frac{1}{2} \times 3\times 0.5^{2}\)

\(E_{e} = \frac{1}{2} \times 3\times 0.25\)

\(E_{e} = 0.375~J\)

Question

How much elastic potential energy does a spring store when it is compressed by 0.2 m if it has a spring constant of 5 N/m?

Calculating gravitational potential energy

The amount of stored by an object at height can be calculated using the equation:

Gravitational potential energy = mass 脳 gravitational field strength 脳 height

\(E_{p}=m~g~h\)

This is when:

  • gravitational potential energy (Ep) is measured in joules (J)
  • mass (m) is measured in kilograms (kg)
  • gravitational field strength (g) is measured in newtons per kilogram (N/kg)
  • height (h) is measured in metres (m)

Example

Galileo takes a 5 kg cannonball to the top of the Tower of Pisa for one of his experiments. The tower is 56 m high. How much gravitational potential energy has the cannonball gained? (g = 10 N/kg)

\(E_{p}=m~g~h\)

\(E_{p}= 5 \times 10 \times 56\)

\(E_{p}= 2,800 J\)

Question

How much gravitational potential energy does a 500 g book gain when it is lifted up 1.5 m onto a shelf?

For any of these equations you may need to change the subject of the formula.