Thursday 28 January 2010

Astrofisika



"Pemikiran dan Permasalahan yang menghampiri manusia akan menyebabkan kedewasaan dan kemajuan peradaban manusia itu sendiri' 
  ~Arip~ 


Frontiers and Controversies in Astrophysics 

 

 

Lecture 5 - Planetary Transits 

 

 

 

Overview:

Professor Bailyn talks about student responses for a paper assignment on the controversy over Pluto. The central question is whether the popular debate is indeed a "scientific controversy." A number of scientific "fables" are discussed and a moral is associated with each: the demotion of Pluto (moral: science can be affected by culture); the discovery of 51 Peg b (morals: expect the unexpected, and look at your data); the disproof of pulsation as explanation for the Velocity Curves (moral: sometimes science works like science).

Problem sets/Reading assignment:

None assigned

Course Media

Transcript

html

Audio

mp3

Low Bandwidth Video

mov [100MB]

High Bandwidth Video

mov [500MB]






Resources:

Class Notes - Lecture 5 [PDF]

Sumber:

1. The University of Yale Open Course Ware

2. Professor Bailyn's guide to Extrasolar Planet Websites
http://www.astro.yale.edu/bailyn/astro160/planets.html

Ucapan Terima Kasih:

1. Bapak. Prof. Dr. Ing. H. B. J. Habibie.

2. Departemen Pendidikan Nasional

3. Kementrian Riset dan Teknologi

4. Lembaga Penerbangan dan Antariksa Nasional
 


Disusun Ulang Oleh:

Arip Nurahman

Department of Physics, Indonesia University of Education

&

Follower Open Course Ware at MIT-Harvard University, Cambridge. USA.

Semoga Bermanfaat dan Terima Kasih

Tuesday 26 January 2010

Astrofisika



"Kadang kita akan menemukan Keindahan dan Kebesaran Sang Pencipta saat kita menyusuri berlikunya keteraturan tata surya" 
~Arip~ 

Frontiers and Controversies in Astrophysics 

 

 

Lecture 4 - Discovering Exoplanets: Hot Jupiters 







Overview:

 

The formation of planets is discussed with a special emphasis on the bodies in the Solar System. Planetary differences between the celestial bodies in the Inner and Outer Solar System are observed. Professor Bailyn explains how the outlook of our Solar System can predict what other star systems may look like. It is demonstrated how momentum equations are applied in astronomers' search for exoplanets. Planet velocities are discussed and compared in relation to a planet's mass. Finally, the Doppler shift is introduced and students learn how it is used to measure the velocity of distant objects, such as galaxies and planets.

Problem sets/Reading assignment:

 

Problem Set 1 [PDF]
Problem Set 1 Solutions [PDF]


Course Media

Transcript

html

Audio

mp3

Low Bandwidth Video

mov [100MB]

High Bandwidth Video

mov [500MB]






Sumber:

1. The University of Yale Open Course Ware

2. Professor Bailyn's guide to Extrasolar Planet Websites
http://www.astro.yale.edu/bailyn/astro160/planets.html

Ucapan Terima Kasih:

1. Bapak. Prof. Dr. Ing. H. B. J. Habibie.

2. Departemen Pendidikan Nasional

3. Kementrian Riset dan Teknologi

4. Lembaga Penerbangan dan Antariksa Nasional


Disusun Ulang Oleh:

Arip Nurahman

Department of Physics, Indonesia University of Education

&

Follower Open Course Ware at MIT-Harvard University, Cambridge.USA.

Semoga Bermanfaat dan Terima Kasih

Sunday 24 January 2010

Sekolah Pendidikan Robotika Indonesia

Sekolah Pendidikan Robotika Indonesia




Indonesian Robotics Education School

Visi



Melahirkan Ahli-ahli Robotika Bertaraf Internasional yang senantiasa Bertafakur, Bertasyakur dan Bertadabur terhadap Keagungan Yang Maha Kuasa





Misi

1. Melahirkan Ahli Robotika Berkualitas Internasional Berkarakteristik Lokal di tiap Kabupaten atau Kota Setiap Tahun Minimal 2 Orang.



2. Kaderisasi yang berkelanjutan dan terarah



Program



1. Mempelajari alat-alat elektronika sederhana di Sekeliling Kehidupan kita



2. Mempelajari bahasa-bahasa pemrograman komputer dengan tekun dan rajin



3. Mengembangkan kurikulum pendidikan Robotika





Langkah Setrategis Sederhana



1. Promosi Kesekolah-sekolah Kejuruan dan Menengah atas untuk membuat club-club kecil penggemar Otomasi, Kendali dan Robotika



2. Mengadakan Ivent-ivent kecil dan sederhana megenai Robotika



3. Istiqomah

Friday 22 January 2010

Astrofisika

"Membebaskan diri dari belenggu materi dan energi alam raya ini akan menuntun kita kepada cahaya abadi"

~Arip~ 




Frontiers and Controversies in Astrophysics  

 

Lecture 3 - Our Solar System and the Pluto Problem






 

 

Overview:

 

 

Class begins with a review of the first problem set. Newton's Third Law is applied in explaining how exoplanets are found. An overview of the Solar System is given; each planet is presented individually and its special features are highlighted. Astronomy is discussed as an observational science, and the subject of how to categorize objects in the Solar System is addressed. The Pluto controversy is given special attention and both sides of the argument regarding its status are considered.

Problem sets/Reading assignment:

The Pluto Controversy (links to various sites related to the demotion of Pluto to the status of "dwarf planet.")
http://www.astro.yale.edu/bailyn/astro160/pluto.html


Course Media

Transcript

html

Audio

mp3

Low Bandwidth Video

mov [100MB]

High Bandwidth Video

mov [500MB]







Resources:

Class Notes - Lecture 3 [PDF]

Sumber:

1. The University of Yale Open Course Ware

2. Professor Bailyn's guide to Extrasolar Planet Websites
http://www.astro.yale.edu/bailyn/astro160/planets.html

Ucapan Terima Kasih:

1. Bapak. Prof. Dr. Ing. H. B. J. Habibie.

2. Departemen Pendidikan Nasional

3. Kementrian Riset dan Teknologi

4. Lembaga Penerbangan dan Antariksa Nasional


Disusun Ulang Oleh:

Arip Nurahman

Department of Physics, Indonesia University of Education

&

Follower Open Course Ware at MIT-Harvard University, Cambridge. USA.

Semoga Bermanfaat dan Terima Kasih

Wednesday 20 January 2010

Astrofisika


"Belajar dan Berpikir merupakan anugrah yang luar biasa dari Sang Maha Pengatur Alam Raya ini"
  ~Arip~ 


 

Frontiers and Controversies in Astrophysics 

 

Lecture 2 - Planetary Orbits 


 

 

 

Overview: 

 

Exoplanets are introduced and students learn how astronomers detect their presence as well as the challenges associated with it. Physics equations are explained as well as their importance in the context of the course. A number of problems are worked out to get students used to dealing with large numbers in calculating planetary masses, interplanetary distances, etc.

Problem sets/Reading assignment:

None assigned


Course Media

Transcript

html

Audio

mp3

Low Bandwidth Video

mov [100MB]

High Bandwidth Video

mov [500MB]







 

Resources:

Class Notes - Lecture 2 [PDF]


Sumber:

1. The University of Yale Open Course Ware

2. Professor Bailyn's guide to Extrasolar Planet Websites
http://www.astro.yale.edu/bailyn/astro160/planets.html

Ucapan Terima Kasih:

1. Bapak. Prof. Dr. Ing. H. B. J. Habibie.

2. Departemen Pendidikan Nasional

3. Kementrian Riset dan Teknologi

4. Lembaga Penerbangan dan Antariksa Nasional


Disusun Ulang Oleh:

Arip Nurahman

Department of Physics, Indonesia University of Education

&

Follower Open Course Ware at MIT-Harvard University, Cambridge. USA.

Semoga Bermanfaat dan Terima Kasih

Monday 18 January 2010

Astrofisika

 

Frontiers and Controversies in Astrophysics  

 

 


Lecture 1 - Introduction

 

 

 

Overview: 

 

 

Professor Bailyn introduces the course and discusses the course material and requirements. The three major topics that the course will cover are:

(1) exoplanets--planets around stars other than the Sun,
(2) black holes--stars whose gravitational pull is so strong that even their own light rays cannot escape, and
(3) cosmology--the study of the Universe as a whole. Class proper begins with a discussion on planetary orbits.

A brief history of astronomy is also given and its major contributors over the centuries are introduced: Ptolemy, Galileo, Copernicus, Kepler, and Newton.

Problem sets/Reading assignment:

None assigned







Course Media

Transcript

html

Audio

mp3

Low Bandwidth Video

mov [100MB]

High Bandwidth Video

mov [500MB]

Resources:

Class Notes - Lecture 1 [PDF]



"Mempelajari alam raya sejatinya adalah upaya kita manusia untuk mengenal Siapa Pencipta Alam ini"
~Arip~



 

Sumber:

1. The University of Yale Open Course Ware

2. Professor Bailyn's guide to Extrasolar Planet Websites

http://www.astro.yale.edu/bailyn/astro160/planets.html

Ucapan Terima Kasih:

1. Bapak. Prof. Dr. Ing. H. B. J. Habibie.

2. Departemen Pendidikan Nasional

3. Kementrian Riset dan Teknologi

4. Lembaga Penerbangan dan Antariksa Nasional


Disusun Ulang Oleh:

Arip Nurahman

Department of Physics, Indonesia University of Education

&

Follower Open Course Ware at MIT-Harvard University, Cambridge.USA.

Semoga Bermanfaat dan Terima Kasih

Sunday 10 January 2010

Earth & Space Science Digital Laboratory


Visi

Untuk Menciptakan Kemajuan dalam Bidang Ilmu Pengetahuan, Teknologi Kebumian dan Antariksa demi Keselamatan serta Kesejahteraan Umat Manusia


Misi

1. Inovasi dalam IPTEK Laboratorium Digital Kebumian dan Keantariksaan

2. Penelitian dalam IPTEK Laboratorium Digital Kebumian dan Keantariksaan

3. Pengembangan dalam IPTEK Laboratorium Digital Kebumian dan Keantariksaan

4. Pendidikan dalam IPTEK Laboratorium Digital Kebumian dan Keantariksaan


Program

1. Pembelajaran Teknik Geologi

2. Pembelajaran Geografi dan Lingkungan

3. Pembelajaran Fisika Antariksa


Foukus

1.Izinkan saya untuk berbagi pengetahuan sedikit tentang geology

Adapun daftar isinya :

2. Teaching Geo-science with Visualizations: Using Images, Animations, and Models Effectively

Visualizing the Earth, its processes, and its evolution through time is a fundamental aspect of geoscience. The use of visualizations - diagrams, images, animations, maps, and more - is an essential tool in helping students to visualize the Earth and its processes (e.g., references in the recommended reading list and many others).

3.Big Questions

a.How is the global earth system changing?
  • Earth is currently in a period of warming. Over the last century, Earth's average temperature rose about 1.1°F (0.6°C). In the last two decades, the rate of our world's warming accelerated and scientists predict that the globe will continue to warm over the course of the 21st century. Is this warming trend a reason for concern? After all, our world has witnessed extreme warm periods before, such as during the time of the dinosaurs. Earth has also seen numerous ice ages on roughly 11,000-year cycles for at least the last million years. So, change is perhaps the only constant in Earth's 4.5-billion-year history.

b.What are the primary forcings of the Earth system?
  • The Sun is the primary forcing of Earth's climate system. Sunlight warms our world. Sunlight drives atmospheric and oceanic circulation patterns. Sunlight powers the process of photosynthesis that plants need to grow. Sunlight causes convection which carries warmth and water vapor up into the sky where clouds form and bring rain. In short, the Sun drives almost every aspect of our world's climate system and makes possible life as we know it.
c.How does the earth system respond to natural and human-induced changes?
  • Climate scientists have been monitoring Earth's energy budget since the 1978 launch of NASA's Nimbus-7 satellite. That mission carried a new instrument into space called the Earth Radiation Budget Experiment (or ERBE), designed to measure all of the energy leaving through the top of Earth's atmosphere. All of the incoming sunlight minus all of the reflected sunlight and emitted heat is our world's energy budget. The second law of thermodynamics compels Earth's climate system to seek equilibrium so that, over the course of a year the amount of energy received equals the amount of energy lost to space. So typically the global energy budget is in balance.

c.What are the consequences of change in the earth system for human civilization?
  • Earth's climate system has been remarkably stable over the last 20,000 years or so. Human civilization developed in that time span, and our world's average temperature warmed by about 5°C to the temperature it is today. This fact points to one of climate scientists' main concerns about global warming: the temperature is rising faster than at any other time in the history of human civilization and such rapid climate change is likely to seriously stress some populations who cannot adapt quickly enough to the changes.

 d.How will the Earth system change in the future?
  • As the world consumes ever more fossil fuel energy, greenhouse gas concentrations will continue to rise and Earth's average temperature will rise with them. The Intergovernmental Panel on Climate Change (or IPCC) estimates that Earth's average surface temperature could rise between 2°C and 6°C by the end of the 21st century.


Founder by:

1. Ade Akhyar Nurdin
The Last Geolog in the World


2. Arip Nurahman


3. Ridwan Firdaus

Thanks To:



3.Earth - NASA Science


Powered by:

1. Museum Geologi Bandung

2. Laboratorium Ilmu Pengetahuan Bumi dan Antariksa, Pendidikan Fisika. FPMIPA. UPI Bandung

3. Departemen Teknik Geologi UNSOED

4. Departemen Pendidikan Geografi Universitas Negeri Jakarta

Wednesday 6 January 2010

Indonesian Space Force Command

Indonesian Space Force Command   

 Komando Untuk Keamanan Luar Angkasa 

Dari Angkatan Antariksa Indonesia

 

 

Sukhoi PAK FA


PAK FA
PAK FA T-50 prototype on the day of its first flight
Role Stealth multirole fighter
National origin Russia
Manufacturer Sukhoi
First flight January 29, 2010 
Introduction 2013 (planned)
Status Test flight / Pre-production
Primary user Russian Air Force
Number built
Program cost US$8-10 billion (est.)
Unit cost US$100 million (est.)
Variants Sukhoi/HAL FGFA



Specifications

Because the aircraft is in development, these specifications are preliminary and are taken as estimates from the available images.
Data from 
General characteristics
  • Crew: 1
  • Length: 19.8 m (65.9 ft)
  • Wingspan: 14 m (46.6 ft)
  • Height: 6.05 m (19.8 ft)
  • Wing area: 78.8 m2 (848.1 ft2)
  • Empty weight: 18,500 kg (40,785 lb)
  • Loaded weight: 26,000 kg (57,320 lb)
  • Useful load: 7,500 kg (combat load) (16,534 lb)
  • Max takeoff weight: 37,000 kg (81,570 lb)
  • Powerplant: 2× New unnamed engine by NPO Saturn and FNPTS MMPP Salyut of 175 kN each. Prototype with AL-41F1 of 147 kN each, definitive version with new engine >157 kN
  • Maximum Fuel weight: 10,300 kg (22,711 lb)
Performance
Armament
  • Guns: None on prototype. Apparent provision for a cannon (Most likely GSh-301)
  • Hardpoints: Two internal bays estimated at 4.6-4.7 metres by 1-1.1 metres. Other sources suggest two auxiliary internal bays for short range AAMS and 6 external hardpoints
Avionics

N050(?)BRLS AFAR/AESA built by Tikhomirov NIIP and based on Tikhomirov NIIP N035 Irbis-E.

It will be the second aircraft based AESA Radar to be built by Russia, the first being the Phazotron NIIR ZHUK-A Radar in the MIG-35.

Designed armament

Two Izdeliye 810 Extended beyond visual range missiles per weapons bay. Multiple Izdeliye 180 / K77M beyond visual range missiles. K74 and K30 within visual range missiles can also be carried.
Two KH38M or KH58 USHK air-to-ground missiles per weapons bay.

Multiple 250-500kg precision guided bombs per weapons bay, with a maximum of ten bombs in internal bays.
Other possible loads include one 1500kg bomb per weapons bay or two 400km+ range anti-AWACS weapons on external hard-points. A maximum weapons load of 7500kg is reported.

Comparison

Comparison of performance of fifth generation jet fighter

Maximum speed: Supercruise: Ferry Range (max): Service ceiling: RCS:
F-35: 2,065 km/h (1,283 mph) - Mach 1.67 No data 2,220 km 18,288 m (60,000 ft) 0.0015 m^2
F-22: 2,410 km/h (1,500 mph) - Mach 2.25 1,963 km/h (1,220 mph) 2,960 km 19,812 m (65,000 ft) 0.0002 m^2
T-50: 2,600 km/h (1,615 mph) - Mach 2.45 1,800 km/h (1,118 mph) 5,500 km 20,000 m (65,616 ft) 0.5 m^2





Semoga Bermanfat dan Terima Kasih

Maju Terus Dunia Dirgantara Indonesia