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Accelerated Reading Time until 1:49.

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Presentation on theme: "Accelerated Reading Time until 1:49."— Presentation transcript:

1 Accelerated Reading Time until 1:49

2 Place this in the proper place
Physical Science May 5, 2017 Place this in the proper place Grade notebooks Monday

3

4 Essential Question: Why do they call it a pulsar?
Write your summary from Last Class’s notes on Last Class’s paper. Last class’s EQ was: Essential Question: Why do they call it a pulsar?

5 Summary We had a standard opening. We finished the Solar System booklet, and watched videos on singularities, nebulas, supernovas, and meteors. I learned

6 Topic/Objective: Name: Exploring space Class/Period: Date: May 5, 2017 Essential Question: What was the earliest use of rockets?

7 Warm Up

8 1. a luminous ball of gas, mostly hydrogen and helium reacting by fusion, held together by intense gravitational force a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

9 2. a star in which all the particles have become neutrons; collapsed remains of a supernova a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

10 3. A large cloud of dust and gas in interstellar space; the location of star formation. a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

11 4. A diagonal pattern of stars on the H-R diagram a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

12 Answers

13 1. a luminous ball of gas, mostly hydrogen and helium reacting by fusion, held together by intense gravitational force a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

14 1. a luminous ball of gas, mostly hydrogen and helium reacting by fusion, held together by intense gravitational force a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

15 2. a star in which all the particles have become neutrons; collapsed remains of a supernova a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

16 2. a star in which all the particles have become neutrons; collapsed remains of a supernova a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

17 3. A large cloud of dust and gas in interstellar space; the location of star formation. a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

18 3. A large cloud of dust and gas in interstellar space; the location of star formation. a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

19 4. A diagonal pattern of stars on the H-R diagram a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

20 4. A diagonal pattern of stars on the H-R diagram a) Star; b) Supernova; c) Neutron star; d) Red Giant; e) Nebula; f) White dwarf; g) Black hole; h) main sequence

21 Homework Monday will grade notebook

22 Today’s Work Grade planners Collect Solar System Booklet Finish Deep space objects Early space exploration

23 Black holes https://www.youtube.com/watch?v=8grTbzAo0PA
Deep space objects Black holes Open & Globular Star Clusters Nebula slides Supernovas & Remnants Quasars Pulsars

24 Space Exploration Brief history of rocketry Formation of NASA NASA history Animals in space x-15 Rocket failures

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