Presentation is loading. Please wait.

Presentation is loading. Please wait.

Evaluating Experiments D. Crowley, 2007. Evaluating Experiments To be able to evaluate experiments, and know the difference between mass and weight Monday,

Published byCassandra Boyd Modified over 8 years ago

Similar presentations

Presentation on theme: "Evaluating Experiments D. Crowley, 2007. Evaluating Experiments To be able to evaluate experiments, and know the difference between mass and weight Monday,"— Presentation transcript:

1 Evaluating Experiments D. Crowley, 2007

2 Evaluating Experiments To be able to evaluate experiments, and know the difference between mass and weight Monday, September 14, 2015

3 Results - Newton Meter Last lesson you collected results of how a spring changed length, when different masses were added to it Mass (g)Weight (N)Length of spring (cm) 00 1001 2002 3003

4 Graph & Results Now you have your results, you need to produce a line graph - think about what goes on the bottom of the graph (what did you change) Produce a line of best fit, add a title and units to your graph Were there any anomalies? Why do you think this is? How accurate / reliable were your results? Then write up your results - what did you find? Was the experiment a success - could you improve it? Now you have your results, you need to produce a line graph - think about what goes on the bottom of the graph (what did you change) Produce a line of best fit, add a title and units to your graph Were there any anomalies? Why do you think this is? How accurate / reliable were your results? Then write up your results - what did you find? Was the experiment a success - could you improve it?

5 Mass versus Weight Be careful - mass and weight are two very different things Mass is the amount of stuff there is (in kg) Weight is caused by the pull of gravity (in N/kg) - this will be different if you are own the Earth / Moon / in a black hole! Be careful - mass and weight are two very different things Mass is the amount of stuff there is (in kg) Weight is caused by the pull of gravity (in N/kg) - this will be different if you are own the Earth / Moon / in a black hole!

6 Mass versus Weight For example - take a person who has a mass of 80kg If they are on the Earth, on the Moon, in fact anywhere in the Universe, their mass is always 80kg But their weight varies - weight is the mass x the force of gravity This force of gravity can vary - on Earth it is 10N/kg; on the Moon just 1.6N/kg For example - take a person who has a mass of 80kg If they are on the Earth, on the Moon, in fact anywhere in the Universe, their mass is always 80kg But their weight varies - weight is the mass x the force of gravity This force of gravity can vary - on Earth it is 10N/kg; on the Moon just 1.6N/kg

7 Mass versus Weight Astronaut = mass of 80kg anywhere in Universe, but… Weight varies, depending upon the pull of gravity Earth Astronaut Mass = 80kg Earth Gravity = 10N/kg Weight = 80 x 10 = 800N Moon Astronaut Mass = 80kg Moon Gravity = 1.6N/kg Weight = 80 x 1.6 = 128N

8 Examples See if you can answer the following questions on mass and weight… 1)My mass is 60kg on Earth. What is my mass on the moon? 2)If my mass is 60kg, what is it on the sun? 3)My mass is 100kg. The pull of gravity on Earth is 10N/kg. What is my weight? 4)My mass is 100kg. The pull of gravity on the Moon is 1.6N/kg. what is my weight? 5)Does weight change throughout the universe? See if you can answer the following questions on mass and weight… 1)My mass is 60kg on Earth. What is my mass on the moon? 2)If my mass is 60kg, what is it on the sun? 3)My mass is 100kg. The pull of gravity on Earth is 10N/kg. What is my weight? 4)My mass is 100kg. The pull of gravity on the Moon is 1.6N/kg. what is my weight? 5)Does weight change throughout the universe? Remember: - Weight = mass x pull of gravity

9 Answers See if you can answer the following questions on mass and weight… 1)My mass is 60kg on Earth. What is my mass on the moon? Mass is the same anywhere! It will be 60kg on the moon too 2)If my mass is 60kg, what is it on the sun? Mass is the same anywhere! It will be 60kg on the sun too 3)My mass is 100kg. The pull of gravity on Earth is 10N/kg. What is my weight? Weight = 100 x 10 Weight = 1000N 4)My mass is 100kg. The pull of gravity on the Moon is 1.6N/kg. what is my weight? Weight = 100 x 1.6 Weight = 160N 5)Does weight change throughout the universe? Yes! Weight depends on the pull of gravity. So if you’re on a massive planet you’ll weigh a lot more than on a small rock See if you can answer the following questions on mass and weight… 1)My mass is 60kg on Earth. What is my mass on the moon? Mass is the same anywhere! It will be 60kg on the moon too 2)If my mass is 60kg, what is it on the sun? Mass is the same anywhere! It will be 60kg on the sun too 3)My mass is 100kg. The pull of gravity on Earth is 10N/kg. What is my weight? Weight = 100 x 10 Weight = 1000N 4)My mass is 100kg. The pull of gravity on the Moon is 1.6N/kg. what is my weight? Weight = 100 x 1.6 Weight = 160N 5)Does weight change throughout the universe? Yes! Weight depends on the pull of gravity. So if you’re on a massive planet you’ll weigh a lot more than on a small rock Remember: - Weight = mass x pull of gravity

10 Planets Use the data below to work out how much a 500kg mass weighs on the planets in our solar system (copy this table into your books)… PlanetGravitation pull (N/kg) Weight of 500kg mass (N) Mercury4 Venus9 Earth10 Mars4 Jupiter26 Saturn11 Uranus11 Neptune12 Pluto4

11 Planets Use the data below to work out how much a 500kg mass weighs on the planets in our solar system (copy this table into your books)… PlanetGravitation pull (N/kg) Weight of 500kg mass (N) Mercury42000 Venus94500 Earth105000 Mars42000 Jupiter2613000 Saturn115500 Uranus115500 Neptune126000 Pluto42000 So you’re mass is always the same, but you’ll weigh loads more on Jupiter

Download ppt "Evaluating Experiments D. Crowley, 2007. Evaluating Experiments To be able to evaluate experiments, and know the difference between mass and weight Monday,"

Similar presentations

Class Solar System Riddles

Class Solar System Riddles
The solar system is a huge place with lots of planets.

The solar system is a huge place with lots of planets.
Solar System Cody Vanbenthuysen

Solar System Cody Vanbenthuysen
08/04/2017 Gravity and Space.

08/04/2017 Gravity and Space.
1.To investigate the value of g on other planets in our solar system & to practice our graph drawing and other practical skills 2.To recreate some of.

1.To investigate the value of g on other planets in our solar system & to practice our graph drawing and other practical skills 2.To recreate some of.
It’s what keeps us down.. The diagram shows a man holding a rock while standing in four different locations on the Earth. Answer the following questions.

It’s what keeps us down.. The diagram shows a man holding a rock while standing in four different locations on the Earth. Answer the following questions.
THE SOLAR SYSTEM By: Natalie Natale LRC 320 Final Project.

THE SOLAR SYSTEM By: Natalie Natale LRC 320 Final Project.
OUR SOLAR SYSTEM BY KALID NASR.

OUR SOLAR SYSTEM BY KALID NASR.
By Keith Lehman  Mercury has no moons.  Mercury is 1/3 the size of Earth.  On Mercury, a day is 59 Earth days long.  Mercury is a rock planet.

By Keith Lehman  Mercury has no moons.  Mercury is 1/3 the size of Earth.  On Mercury, a day is 59 Earth days long.  Mercury is a rock planet.
Mass & Weight D. Crowley, 2008.

Mass & Weight D. Crowley, 2008.
Your Weight on Other Worlds

Your Weight on Other Worlds
Weight, Mass, & Volume. What I Know What is weight? If you traveled to another planet, would you weight the same?

Weight, Mass, & Volume. What I Know What is weight? If you traveled to another planet, would you weight the same?
What do I weigh on...? A mathematics and science lesson.

What do I weigh on...? A mathematics and science lesson.
Gravity and Space. Gravity Gravity is an attractive force that affects anything with mass: Note that this force goes both ways – the Earth is attracted.

Gravity and Space. Gravity Gravity is an attractive force that affects anything with mass: Note that this force goes both ways – the Earth is attracted.
Planet Order Create an easy way to remember the names of the planets in order from the Sun. Make up a silly sentence. Each word in the sentence should.

Planet Order Create an easy way to remember the names of the planets in order from the Sun. Make up a silly sentence. Each word in the sentence should.
The Solar system.

The Solar system.
The Solar System ALL 8 PLANETS IN THE SOLAR SYSTEM.

The Solar System ALL 8 PLANETS IN THE SOLAR SYSTEM.
Newton Meters D. Crowley, 2007. Newton Meters To understand how a Newton Meter works Friday, August 21, 2015.

Newton Meters D. Crowley, Newton Meters To understand how a Newton Meter works Friday, August 21, 2015.
How big is it.  List the names of all the planets in our solar system in the correct order  Describe that our solar system is part of the Milky Way.

How big is it.  List the names of all the planets in our solar system in the correct order  Describe that our solar system is part of the Milky Way.
My Solar System Slide Show YOUR NAME.

My Solar System Slide Show YOUR NAME.

Similar presentations

Ads by Google