Difference between revisions of "Gravitational Potential Energy Store"
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===Meaning=== | ===Meaning=== | ||
[[File:RockStack.png|right|300px|thumb|The [[rock]] at the top of this stack has a large amount of [[energy]] in the '''gravitational potential energy store'''.]] | [[File:RockStack.png|right|300px|thumb|The [[rock]] at the top of this stack has a large amount of [[energy]] in the '''gravitational potential energy store'''.]] | ||
− | The '''gravitational potential energy store''' is the [[Energy Store|energy stored]] in an [[object]] that is in a [[ | + | The '''gravitational potential energy store''' is the [[Energy Store|energy stored]] in an [[object]] that is in a [[Gravitational Field|gravitational field]]. |
===About The Gravitational Potential Energy Store=== | ===About The Gravitational Potential Energy Store=== |
Revision as of 09:06, 3 April 2019
Contents
Key Stage 3
Meaning
The gravitational potential energy store is the energy stored in an object that is in a gravitational field.
About The Gravitational Potential Energy Store
- The stronger the gravitational field the more energy in the gravitational potential energy store.
- The greater the mass of the object the more energy in the gravitational potential energy store.
- The greater the height of the object the more energy in the gravitational potential energy store.
Equation
The equation for gravitational potential energy written in words. |
The equation for gravitational potential energy written in symbols. |
Calculating Gravitational Potential Energy
A weight lifter lifts a 50kg mass a distance of 2.0m from the ground. Calculate the increase in gravitational potential energy of the mass.
g on Earth is 9.8N/kg |
A pulley is used to lift a 12 tonne mass 0.80m above the ground. Calculate the change in energy in the gravitational potential store.
g on Earth is 9.8N/kg Give your answer correct to two significant figures. |
During a rock slide a 320kg boulder falls from a height of 1450m to a height of 730m above sea level. Calculate the change in gravitational potential energy.
g on Earth is 9.8N/kg Give your answer correct to two significant figures. |
1. State the known quantities
m = 50kg g = 9.8N/kg Δh = 2.0m |
1. State the known quantities
m = 12tonne = 12,000kg g = 9.8N/kg Δh = 0.80m |
1. State the known quantities
m = 320kg g = 9.8 N/kg Δh = h2 - h1 = 1450 - 730 = 720m |
2. Substitute the numbers into the equation and solve.
\(E_g = m g \Delta h\) \(E_g = m \times g \times \Delta h\) \(E_g = 50 \times 9.8 \times 2\) \(E_g = 980J\) |
2. Substitute the numbers into the equation and solve.
\(E_g = m g \Delta h\) \(E_g = m \times g \times \Delta h\) \(E_g = 0.80 \times 9.8 \times 12000\) \(E_g = 94080J\) \(E_g \approx 94000J\) |
2. Substitute the numbers into the equation and solve.
\(E_g = m g \Delta h\) \(E_g = m \times g \times \Delta h\) \(E_g = 320 \times 9.8 \times 720\) \(E_g = 2257920J\) \(E_g \approx 2300000J\) |
Key Stage 4
Meaning
The gravitational potential energy store is the energy stored in an object that is in a gravitional field.
About Gravitational Potential Energy
- Gravitational Potential Energy is a potential energy due to the position of a mass in a gravitational field.
- The gravitational potential energy store of an object is related to three important factors:
- The mass - The greater the mass of an object the greater the gravitational potential energy.
- The gravitational field strength - The greater the gravitational field strength the greater the gravitational potential energy.
- The height of the object - The greater the height of an object in a gravitational field the greater the gravitational potential energy.
Equation
NB: You must memorise this equation!
Gravitational Potential Energy = (Mass) x (gravitational field strength) x (change in height)
\(E_g = m g \Delta h\)
Where:
Eg = Gravitational Potential Energy stored.
g = The gravitational field strength.
Δh = The change in height of the object.
Calculating Change in Height from Gravitational Potential Energy
An object of mass 5.0kg is lifted increasing its gravitational potential energy by 245J. Calculate the change in height of the object.
Gravitational Field Strength on Earth is 9.8N/kg. |
A 3.6kg cat jumps vertically with an initial kinetic energy of 70J. Calculate the maximum height that the cat will be able to reach in this jump correct to two significant figures.
Gravitational Field Strength on Earth is 9.8N/kg. |
A vacationing astronaut takes a bow and arrow to The Moon. The bow has an initial elastic potential energy store of 400J before releasing the arrow vertically. Given the mass of the arrow is 120g; calculate the maximum height that the arrow will reach before returning to the ground correct to two significant figures.
Gravitational Field Strength on Earth is 1.6N/kg. |
1. State the known quantities
m = 5.0kg g = 9.8N/kg Eg = 245J |
1. State the known quantities
m = 3.6kg g = 9.8N/kg Eg = 70J (Since the law of Conservation of Energy states that energy is transferred from one store into another.) |
1. State the known quantities
m = 120g = 0.12kg g = 1.6N/kg Eg = 400J (Since the law of Conservation of Energy states that energy is transferred from one store into another.) |
2. Substitute the numbers and evaluate.
\(E_g = m g \Delta h\) \(245 = 5 \times 9.8 \times h\) \(245 = 49h\) |
2. Substitute the numbers and evaluate.
\(E_g = m g \Delta h\) \(70 = 3.6 \times 9.8 \times h\) \(70 = 35.28h\) |
2. Substitute the numbers and evaluate.
\(E_g = m g \Delta h\) \(400 = 0.12 \times 1.6 \times h\) \(400 = 0.192h\) |
3. Rearrange the equation and solve.
\(h = \frac{245}{49}\) \(h = 5m\) |
3. Rearrange the equation and solve.
\(h = \frac{70}{35.28}\) \(h = 1.984127m\) \(h \approx 2.0m\) |
3. Rearrange the equation and solve.
\(h = \frac{400}{0.192}\) \(h = 2083.3m\) \(h \approx 2100m\) (The astronaut then dies because the arrow comes straight back down on them.) |