Gravitational fields
All objects with massThe amount of matter an object contains. Mass is measured in kilograms (kg) or grams (g). have a gravitational fieldThe space or area around a body where another body would experience gravitational attraction. around them. A gravitational field is where a mass experiences a force.
All matter has a gravitational field that attracts other objects. The more mass an object has, the greater its gravitational field will be. For example, the Earth has a greater gravitational field than the Moon because it has a much greater mass than the Moon. The Moon is attracted to the Earth because it is within the Earthâs gravitational field.
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Gravitational fields
The formula that links mass and gravitational field strength is:
gravity force = mass Ă gravitational field strength (g)
This is when:
- gravity force is measured in newtons (N)
- mass is measured in kilograms (kg)
- gravitational field strength (g) is measured in newtons per kilogram (N/kg)
What is weight?
weightThe force acting on an object due to the pull of gravity from a massive object like a planet. The force acts towards the centre of the planet and is measured in newtons (N). refers to the gravity force of planets and other bodies in the Universe, and the effect that this has on objects. It is important to remember that weight is not the same as mass - the weight of an object and its mass are direct proportionTwo values are said to be in direct proportion, when one amount increases and the other amount increases at the same rate.. This means that for a given gravitational field strength, the greater the mass of the object, the greater its weight.
Weight is a non-contact forcesThe push or pull acting between objects that are not physically touching when they interact. because gravity exerts its force through a field. An object does not need to be touching the Earth to have a weight. The weight of an object can be measured using a calibrated spring-balance, often called a Newton meter. Weight is also referred to as âgravity forceâ.
gravity force = mass Ă gravitational field strength (g)
This is when:
- gravity force (weight) is measured in newtons (N)
- mass is measured in kilograms (kg)
- gravitational field strength (g) is measured in newtons per kilogram (N/kg)
The equation can be rearranged to make mass the subject:
\(mass = \frac{gravity~force}{gravitational~field~strength}\)
Example
Calculate the gravity force (weight) of a skydiver with a mass 70 kg falling towards the Earth?
(Remember that gravitational field strength = 10 N/kg on Earth).
weight = mass Ă gravitational field strength
weight = 70 Ă 10
weight = 700 N
Question
A team of astrophysicists sends a probe to Jupiter. The gravitational field strength of Jupiter is 27 N/kg, and the probe is 1200 kg. Calculate the gravity force (weight) of the probe on Jupiter.
weight = mass Ă gravitational field strength
weight = 1,200 Ă 27
weight = 32,400 N (or 32.4 kN)
Acceleration due to gravity
The constant g can also be referred to as the acceleration due to gravity. An object falling towards the surface of a large body would have this acceleration. It is the largest acceleration that the falling object would experience in free fall.
resultant force = mass Ă acceleration due to gravity
This is when:
- resultant force is measured in newtons (N)
- mass is measured in kilograms (kg)
- acceleration due to gravity is measured in (m/s2)
More guides on this topic
- Quiz: Scalar and vector quantities
- Quiz: Moments, levers and gears
- Quiz: Momentum - Higher
- Scalar and vector quantities - OCR Gateway
- Motion - OCR Gateway
- Newton's laws - OCR Gateway
- Momentum, work and power - OCR Gateway
- Forces and elasticity - OCR Gateway
- Moments, levers and gears - OCR Gateway
- Pressure - OCR Gateway
- Sample exam questions - forces - OCR Gateway