PHYSICS – Mass and Weight. LEARNING OBJECTIVES 1.3 Mass and weight Core Show familiarity with the idea of the mass of a body State that weight is a gravitational.

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Presentation transcript:

PHYSICS – Mass and Weight

LEARNING OBJECTIVES 1.3 Mass and weight Core Show familiarity with the idea of the mass of a body State that weight is a gravitational force Distinguish between mass and weight Recall and use the equation W = mg Demonstrate understanding that weights (and hence masses) may be compared using a balance Supplement Demonstrate an understanding that mass is a property that ‘resists’ change in motion Describe, and use the concept of, weight as the effect of a gravitational field on a mass

Mass, weight and gravity ‘g’ actually has two meanings:  g is the acceleration of free fall (10m/s 2 )

‘g’ actually has two meanings:  g is the acceleration of free fall (10m/s 2 )  g is the gravitational field strength (10N/kg) Mass, weight and gravity

Gravitational field strength is the force experienced by a mass due to gravitational attraction. Mass, weight and gravity

Gravitational field strength is the force experienced by a mass due to gravitational attraction. Weight is the term we use for the Earth’s gravitational force on an object. Mass, weight and gravity

Weight = mass x g (where g = 10N/kg) Mass, weight and gravity

Weight = mass x g (where g = 10N/kg) W = mg Mass, weight and gravity

Weight = mass x g (where g = 10N/kg) W = mg W = 1000 x 10 Mass, weight and gravity

Weight = mass x g (where g = 10N/kg) W = mg W = 1000 x 10 W = 10,000N Mass, weight and gravity

Weight = mass x g (where g = 10N/kg) W = mg Remember: mass doesn’t change – it’s the gravitational force that may change Mass, weight and gravity

MassWeight In space 1000kgZero On the Mooon 1000kg1,600N On Earth 1000kg10,000N Mass, weight and gravity

Mass 500kg 6000N upward force from rocket engine Weight

Mass, weight and gravity Mass 500kg 6000N upward force from rocket engine Weight What is the acceleration of the rocket?

Mass, weight and gravity Mass 500kg 6000N upward force from rocket engine Weight What is the acceleration of the rocket? W = mg

Mass, weight and gravity Mass 500kg 6000N upward force from rocket engine Weight What is the acceleration of the rocket? W = mg W = 500 x 10 = 5000N

Mass, weight and gravity Mass 500kg 6000N upward force from rocket engine Weight What is the acceleration of the rocket? W = mg W = 500 x 10 = 5000N Resultant force upwards = upwards force – downwards force

Mass, weight and gravity Mass 500kg 6000N upward force from rocket engine Weight What is the acceleration of the rocket? W = mg W = 500 x 10 = 5000N Resultant force upwards = upwards force – downwards force = 6000 – 5000 = 1000N

Mass, weight and gravity Mass 500kg 6000N upward force from rocket engine Weight What is the acceleration of the rocket? W = mg W = 500 x 10 = 5000N Resultant force upwards = upwards force – downwards force = 6000 – 5000 = 1000N Resultant force = mass x acceleration

Mass, weight and gravity Mass 500kg 6000N upward force from rocket engine Weight What is the acceleration of the rocket? W = mg W = 500 x 10 = 5000N Resultant force upwards = upwards force – downwards force = 6000 – 5000 = 1000N Resultant force = mass x acceleration 1000 = 500 x a 1000 = a 500 Acceleration = 2 m/s 2

LEARNING OBJECTIVES 1.3 Mass and weight Core Show familiarity with the idea of the mass of a body State that weight is a gravitational force Distinguish between mass and weight Recall and use the equation W = mg Demonstrate understanding that weights (and hence masses) may be compared using a balance Supplement Demonstrate an understanding that mass is a property that ‘resists’ change in motion Describe, and use the concept of, weight as the effect of a gravitational field on a mass

PHYSICS – Mass and Weight