Skip to main content

China ready to land robot rover on Moon



Moon
The Jade Rabbit, seen in this artist's impression, will be the first wheeled vehicle on the Moon since the 1970s  

China is set to land a robotic rover on the surface of the Moon, a major step in the Asian superpower's ambitious programme of space exploration.


On Saturday afternoon (GMT), a landing module will undergo a powered descent, using thrusters to perform the first soft landing on the Moon in 37 years.


Several hours later, the lander will deploy a robotic rover called Yutu, which translates as "Jade Rabbit".
The touchdown will take place on a flat plain called the Bay of Rainbows.


The Chang'e-3 mission launched on a Chinese-developed Long March 3B rocket on 1 December from Xichang in the country's south.

"On the evening of December 14, Chang'e-3 will carry out a soft landing on the lunar surface," said a post on the mission's official blog on Sina Weibo, the Chinese version of Twitter.


The task was described as the mission's "most difficult" in the post, written by the Chinese Academy of Sciences on behalf of the space authorities.


It is the third robotic rover mission to land on the lunar surface, but the Chinese vehicle carries a more sophisticated payload, including ground-penetrating radar which will gather measurements of the lunar soil and crust.

The 120kg (260lb) Jade Rabbit rover can reportedly climb slopes of up to 30 degrees and travel at 200m (660ft) per hour.


Its name - chosen in an online poll of 3.4 million voters - derives from an ancient Chinese myth about a rabbit living on the moon as the pet of the lunar goddess Chang'e.

Infographic 
According to translated documents, the landing module will begin actively reducing its speed at about 15km from the Moon's surface.


When it reaches a distance of 100m from the surface, the craft will fire thrusters to slow its descent.
At a distance of 4m, the lander switches off the thrusters and free-falls to the lunar surface.
The Jade Rabbit is expected to be deployed on Saturday evening, driving down a ramp lowered by the Chang'e-3 landing module.


Reports suggest the lander and rover will photograph each other at some point on Sunday.
The Chang'e-3 mission launches from Xichang, south China
According to Chinese space scientists, the mission is designed to test new technologies, gather scientific data and build intellectual expertise.


Dean Cheng, a senior research fellow at the Heritage Foundation, a conservative think-tank in Washington DC, said China's space programme was a good fit with China's concept of "comprehensive national power". This might be described as a measure of a state's all-round capabilities.


Space exploration was, he told BBC News, "a reflection of your economic power, because you need spare resources to have a space programme. It clearly has military implications because so much space technology is dual use".



He added: "It reflects your scientific and technological capabilities, it supports your diplomacy by making you appear strong.


"China is saying: 'We are doing something that only two other countries have done before - the US and the Soviet Union."


Mr Cheng explained that the mission would provide an opportunity to test China's deep-space tracking and communications capability.


"The rover will reportedly be under Earth control at various points of its manoeuvres on the lunar surface," Mr Cheng wrote in a blog post.


"Such a space observation and tracking system has implications not only for space exploration but for national security, as it can be used to maintain space surveillance, keeping watch over Chinese and other nations' space assets."


The European Space Agency said it would provide communications support on the mission. Erik Sorenson, head of ground facilities at the European Space Operations Centre in Darmstadt, Germany, said Esa's tracking facilities would be able to reconstruct the craft's trajectory during descent and determine its precise location on the Moon.


China has been methodically and patiently building up the key elements needed for an advanced space programme - from launchers to manned missions in Earth orbit to unmanned planetary craft - and it is investing heavily.


The lander's target is Sinus Iridum (Latin for Bay of Rainbows) a flat volcanic plain thought to be relatively clear of large rocks. It is part of a larger feature known as Mare Imbrium that forms the right eye of the "Man in the Moon".


After this, a mission to bring samples of lunar soil back to Earth is planned for 2017. And this may set the stage for further robotic missions, and - perhaps - a crewed lunar mission in the 2020s.
"[Chang'e-3] is probably laying some of the groundwork for a manned mission," said Mr Cheng.

Source:  http://www.bbc.co.uk/news/science-environment-25356603 

Benefits of Membrance Reactor for Hydrogen Production from Biomass



Comments

Popular posts from this blog

How to Calculate Heat Rate of Generator Engine?

Types of Power Plant (Technology) Natural Gas Based power plant technology Diesel power plant technology Heat Rate of Engine= Fuel Flow or Fuel burned * Fuel Heating Value / Power Output 1 Liter Diesel = 0.85 Kg Example: Heat Rate of Diesel Generator at 100% Load Engine Model- 2506A-E15TAG2 Engine Capacity=400 eKW Fuel Consumption=84 L = 71.4 Kg Electrical Energy Output = 400 KW Heating Value of Diesel = 42.5 MJ/Kg Heat Rate of Engine= Fuel Flow or Fuel burned * Fuel Heating Value / Power          Output Heat Rate of Engine = 71.4 Kg * 42.5 MJ/Kg /400KW   Heat Rate of Engine =7.58 MJ/KWH Heat Rate of Gas Generator at 100% Load Engine Model- VHP5904LTD Engine Capacity= 900 eKW Fuel Consumption= 271 Nm 3 Electrical Energy Output= 900 KW Fuel Consumption= 0.28 Nm3/KWH Heating Value of Natural Gas= 35.22 MJ/ Nm 3 Heat Rate of Engine= Fuel Flow or Fuel burned * Fuel Heating Value / Power          Output   

Packing, Seals and Gaskets

Packing, seal and gasket resists the flow of fluid from machinery face, head, joint and machinery gap or clearance. Packing materials: Fiber, asbestos, cotton, synthetic materials, plastic, Teflon, graphite etc. Packing structure: Twisted, Braided and Consolidated. Gasket:             A gasket is a mechanical seal that fills the space between two mating surfaces, generally to prevent leakage from or into the joined objects while under compression. Gaskets allow " less-than-perfect " mating surfaces on machine parts where they can fill irregularities. Gaskets are commonly produced by cutting from sheet materials, such as gasket paper, rubber, silicone, metal, cork, felt, neoprene, nitrile rubber, fiberglass, or a plastic polymer (such as polychlorotrifluoroethylene)                                                                                                Figure : Gaskets Name of the gasket                       uses

Why a dc generator fails to build up voltage?

How can the problem be remedied : No residual magnetism, reversed field connection and high resistance of field circuit are responsible for the failure of build up process of a dc generator. The factors are explained below: No residual magnetism:    For the starting build up process requires some residual magnetism in the magnetic circuit then no voltage will be generated that can produce current flow through field circuit. Reversed field connection:    The voltage induced inside the coil of field circuit due to residual magnetism that can permit the flow of current. For the following direction of this flux will be created and the direction of this flux will be same direction as the residual flux. If the field connections are reversed the lines of flux produced by current flow will oppose the residual flux, as a result generate voltage will decrease rather than increase. So voltage build up process failed. Field circuit resistance too high:   A field

what is the difference between long shunt and short shunt dc generator?

How do they differ from normal generator?    Draw their V-I characteristics and explain them? In short shunt connection the shunt field is connected directly across the armature terminals and the armature connection equals the sum of the shunt field current plus the load current . In this instance the load current flow s through the series field winding so that the load current and series field current are one and same.              In long shunt connection the voltage across the shunt field is the same as the terminal voltage of the generator and current in the armature will be the current in the series field. The armature current equals the shunt field current plus the load current.   A shunt generator has the field circuit connected directly across the armature. As more devices connected in parallel the load on the generator increases that the generator current increases which results decrease in terminal voltage of the generator.  

Therbligs and Basic 17 motion name of therblig

Therbligs : A graphical representation of the co-ordinated activities of an operators body members. These activities ar described in terms of basic or fundamental motions known as therbligs.                                         At the time Frank Gilbreth was doing his work in the field of motion study, he also concluded that any manual activity could be described in terms of 17 fundamental motions. This comparable to our being able to describe every word in the English language in terms of some of the 26 letters of the alphabet. Each of these fundamental motions is called a Therblig. Basic 17 motion name of Therblig : Name of Therblig Letter abbreviation Search Select Grasp Transport empty Transport loaded Hold Release Load Position Pre-position Inspect Assemble Disassemble Use Unavoidable    Delay Avoidable Delay Plan Rest Sh ST G

Various Methods of Drawing Flow Nets

  1.       Hydraulic models: a.        Streamlines can be traced by injecting a dye in a seepage model or Heleshaw apparatus. b.       They by drawing equipotential lines the flow net is completed. 2.       Analytical Method: a.        It is only applied to problems with simple and ideal boundaries conditions. b.       The equation corresponding curve Ç¿ and Ñ° are first obtained and the same are plotted to give the flow net pattern for the flow of fluid between the given boundary shape. 3.       Electrical Analogy Method: This method based on the fact that the flow of fluids and flow of electricity through a conductor are analogus. These two systems are similar in the respect that electric potential is analogus to the velocity potential. The electric current is analogus to the velocity of flow and the homogeneous conductor is analogus to the homogeneous fluid. This method only for a practical method of drawing a flow net for a particular set of boundaries.

Which type of Battery connection Series or Parallel Connection is used for Diesel Generator?

Diesel Generator Battery Connection Batteries can emit explosive gases.     To reduce the possibility of personal injury, always ventilate the compartment before servicing the batteries. To remove the possibility of arching, remove the negative battery cable is first and attach the negative battery last. When using jumper cables to start the engine make sure to connect the cables in parallel Positive to positive and negative to negative. When using external electrical source to start the engine, turn the disconnect switch to the OFF position. Remove the key before attaching the jumper cables. To avoid damage to engine parts do not connect jumper starting or battery charging cable to any fuel system or electronic component. Battery Parallel Connection: The accompanying illustration shows a typical parallel battery connection. This arrangement doubles the cranking amperage. Battery Series Connection: This illustration shows a typical

what is PIV drive? Why is PIV drive more effective than any other system of drive?

PIV Drive: A stepless drive where the transmission of torque takes place infinitly variable without   slip is called PIV drive. There are some advantages of PIV drive: there is no slip in the transmission of power. Maximum transmission of power. Speed can be changed at running condition Any range of slip can be obtain It give constant cutting speed for the above reason PIV drive is more effective than any other system   of drive

“Equalizer connection is needed in lap winding armature but not in wave winding “ why ?

 The equivalent circuit of a four point – pole dynamo with a simplex winding. The voltage induced in each path is assumed to both to be same and should be if the reluctance of each magnetic path is the same, so that the lines of flux cut by each inductor of each path are the same. However wear of the bearings or deflection of the armature shaft may cause the armature to be closer to some poles and farther from others, thus changing the length of the air gap, and therefore the reluctance of the magnetic circuits of the poles is not identical. This factors cause the voltage in the materials making up the magnetic circuit. These factors cause the voltage in each parallel path differ, and the unequal voltages in turn cause flow of a circulating   current through the windings and brushes , undue heating of the armature and waste the power. To reduce the circulating current, points on the winding which should be at the same potentials are brought to the same potentials by connecting

What are the main components of Automobile?

  There have five basic parts for Automobile and they are given bellow: 1.      Engine: Engine which is known to all as a power plant. Engine is the source of power which makes the car wheels rotate and the car move where it supply power to lubricating, fuel, electric and cooling systems. 2.      Frame:   Frame support the engine, body and wheels. 3.      Power train: Power train transmit the power engine to the car wheels where its contain clutch, transmission, propeller shaft, axles and differential.  4.      Car Body 5.      Car body accessories: A car body accessory contains the heater, lights, radio, windshield wiper and convertible top raiser.