Monday, March 26, 2012

1.35

1.35
·         1.35 use the relationship between orbital speed, orbital radius and time period:

             orbital speed = 2×Π×orbital radius   

                                         time period                                               

                             v = 2×Π×r

                                        T

 

v = 2×Π×r

           T    

 

v = orbital speed (m/s or km/hr)

r = orbital radius (m or km)

T = orbital period (s or hr)

 

 

 

1.35 Plenary Answers

15 March 2012

10:30

Pearson Answers, p.56, Q3+4

 

Thursday, March 22, 2012

1.35

1.35

15 March 2012

10:26

·         1.35 use the relationship between orbital speed, orbital radius and time period:

             orbital speed = 2×Π×orbital radius   

                                         time period                                               

                             v = 2×Π×r

                                        T

 

v = 2×Π×r

           T    

 

v = orbital speed (m/s or km/hr)

r = orbital radius (m or km)

T = orbital period (s or hr)

 

 

 

1.35 Plenary Answers

15 March 2012

10:30

Pearson Answers, p.56, Q3+4

 

1.36 Space is big! Scale model of the solar system

scale model.xls Download this file

1.36 Space is big! Scale model of the solar system

12 May 2011

14:47

·         Type the length of your classroom into cell B5 to get the solar system scaled to fit!

·         Check out column U for information about the nearest star to our solar system!

<<scale model.xls>>

 

 

1.36 Plenary Answers

15 March 2012

10:30

1.  What is the solar system?

Everything that orbits our local star, the Sun

2.  What is the Milky Way?

The galaxy that contains our solar system

3.  What is a galaxy?

A huge collection of billions of stars

4.  How many galaxies are there in the Universe?

Billions

Monday, March 19, 2012

1.32 and 1.34 Investigating the solar system - answers

1.32 and 1.34 Investigating the solar system - answers

16 March 2012

10:26

Moons

1.           How are moons different from planets?

Planets orbit the Sun; moons orbit planets

2.           The Earth has one moon.  Do all planets?

No.  Mercury and Venus have no moon, Mars has 2 and Venus and Saturn both have over 60 each!

3.           Do moons have gravitational fields?

Yes, any body that has mass generates a gravitational field.  The gravitational field strength on our Moon is

1.62N/kg, which is about 1/6 of the gravitational field strength on Earth.

 

Gravitational fields

4.           Which planet has the largest gravitational field?  What is it?

Jupiter = 26N/kg

5.           Which planet has the smallest gravitational field? What is it?

Mercury = 4N/kg (Pluto doesn't count!  See Q.11)

6.           What is the relationship between the mass of the planet and the gravitational field strength of the planet?

The larger the mass of a planet, the stronger the gravitational field strength

 

Period of orbit

7.           Which planet has the shortest period of orbit?  What is it?

Mercury = 3 x Earth month = 0.25 x Earth year

(if you lived on Mercury you would be over 60 years old!)

8.           Which planet has the longest period of orbit?  What is it?

Neptune = 1978 x Earth month = 164 x Earth year

(if you lived on Neptune you would be 0.1 years old!)

9.           What is the relationship between the period of orbit of a planet and its distance from the Sun?

The larger the distance from the Sun, the greater the period of orbit

10.     What is the relationship between the surface temperature of a planet and its distance from the Sun?

The larger the distance from the Sun, the lower the surface temperature

(the one exception to this rule is Venus which has an exceptionally high surface temperature of +465oC due to an atmosphere of 96% CO2 and clouds of H2SO4!)

 

Classification of astronomical bodies

11.     What 2 classifications are the planets grouped into?  What are the key features of each group?

4 Inner "rocky" planets

o    Rocky

o    Smaller diameters

o    Shorter periods

4 Outer "gas giant" planets

o    Gaseous

o    Larger diameters

o    Longer periods

o    Have rings (most noticeable for Saturn, but they all have them)

o  What are 2 key features of comets and 3 key features of their orbits?

                                             i.        Made from ice and dust

                                          ii.        Have a tail when they pass close to the Sun

                                             i.        Highly elliptical orbit - see blue trace. 

Image001

o    Sometimes pass close to the Sun at very high speeds but spend most of their orbit in the outer reaches of the solar system moving at much lower speeds

                                        iii.        Periods can be from a few years to hundreds of thousands of years

13.     How do the orbits of asteroids differ from the orbits of comets?

Asteroids are lumps of rock that mostly orbit the Sun in the "Asteroid Belt", between Mars and Jupiter, in approximately circular orbits

14.     Which planet in the animation is no longer a planet? (it has been reclassified as a planetoid or dwarf planet)

Pluto was reclassified as a planetoid or dwarf in 2006 for reasons including its highly elliptical and tilted orbit

 

 

PhET animation - my solar system

31 January 2012

13:34

<<my-solar-system_en.jar>>

 

 

PhET animation - gravity and orbits

31 January 2012

13:34

<<gravity-and-orbits_en.jar>>

Website

http://phet.colorado.edu/en/simulation/gravity-and-orbits

 

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