Aseel Samaro Exploring gravity on Earth.  Gravity is a pulling force that exists between all objects.  For small objects the force is tiny and unnoticeable,

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Presentation transcript:

Aseel Samaro Exploring gravity on Earth

 Gravity is a pulling force that exists between all objects.  For small objects the force is tiny and unnoticeable, but when one of the objects is a planet, gravity is certainly a force to be reckoned with.  The gravitational field of Earth reaches well out into space. Introduction

 The stronger gravity is, the greater the weight of an object.  The strength of the Earth’s gravity gets weaker the further from Earth you go.  When scientists talk about the strength of gravity they often define the location, for example on the surface of a planet.  In space stations in orbit around the Earth, astronauts look as if they have no weight.  However, the Earth’s gravity is attracting them and also the space station.  They fall at the same rate so inside the station it looks as if the astronauts are just floating. Gravity and weight

Compared to standing on Earth, what would your weight be on a high-flying plane? stronger the same weaker Zero Explain your answer to question 1. Explain what would happen if an extremely heavy object was released inside the space station in the previous figure.

Compared to standing on Earth, what would your weight be on a high-flying plane? stronger the same weaker Zero Explain your answer to question 1. It is further from the Earth; so gravity is weaker Explain what would happen if an extremely heavy object was released inside the space station in the previous figure. it would ‘float’ like the astronauts; it would be falling at the same rate as the space station and everything in it

 The region around the Earth affected by its gravity is its gravitational field.  The field can be represented by lines of force.  Where the lines are close together, the field is stronger.  The further apart the lines, the weaker the field. Gravity does not stop at the Earth’s surface.  If you descend into a deep mine you are still pulled towards the middle of the Earth. The Earth’s Gravitational Field

In what direction does Earth’s gravitational force act? Describe what the spacing between the field lines suggests about the gravitational field away from the Earth compared to that on the surface. Describe how the Earth’s gravitational field differs from its magnetic field.

In what direction does Earth’s gravitational force act? Towards the centre of the Earth Describe what the spacing between the field lines suggests about the gravitational field away from the Earth compared to that on the surface. The gravitational field is weaker further away from the Earth. Describe how the Earth’s gravitational field differs from its magnetic field. The gravitational field lines all point toward the centre of the Earth

 Acceleration is a change in the speed or direction of an object’s movement.  Within the Earth’s gravitational field, unsupported objects accelerate towards the Earth unless prevented by other forces. Acceleration caused by gravity

 Think about someone dropping an object – it starts to fall and gets faster.  By the end of the first second it is falling at 10 m/s.  During the next second the object continues to accelerate and by the end of that second it is falling at 20 m/s.  For every one second of free fall the speed increases by 10 m/s.  We say that the acceleration due to gravity (at the Earth’s surface) is 10 metres per second, per second (10 m/s/s or 10 m/s2).

The positions of a falling object at equal time intervals

Explain why the gaps between the object’s positions in Figure 2.5.8c get bigger each time. Imagine a situation where gravity on Earth could be magically turned off. Explain what would happen to the movement of an object if it was allowed to drop for one second and then gravity was turned off.

Explain why the gaps between the object’s positions in Figure 2.5.8c get bigger each time. the object is accelerating; because the force of gravity is acting Imagine a situation where gravity on Earth could be magically turned off. Explain what would happen to the movement of an object if it was allowed to drop for one second and then gravity was turned off. In one second it would accelerate towards the Earth; up to a speed of 10 m/s. It would then continue towards the Earth at 10 m/s. There would be no change in speed or direction; because no force would be acting (assuming no air resistance).

 You can pay for a flight in a plane that will give the experience of feeling weightless.  A plane flown in a curved path in the shape of a parabola creates a sensation similar to, but more extreme than, going over the top on a big-dipper ride. Did you know…?

Thank you