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| Juno mission: Jupiter probe nears critical orbit manoeuvre | Juno mission: Jupiter probe nears critical orbit manoeuvre |
| (35 minutes later) | |
| The US space agency's (Nasa) Juno probe is rapidly bearing down on Jupiter. | The US space agency's (Nasa) Juno probe is rapidly bearing down on Jupiter. |
| Getting ever closer, hour by hour, it will endeavour to be captured by the gas giant's gravity early on Tuesday (GMT) to go into orbit. | Getting ever closer, hour by hour, it will endeavour to be captured by the gas giant's gravity early on Tuesday (GMT) to go into orbit. |
| This will require the probe to execute a perfect braking manoeuvre using its British-made rocket engine. | This will require the probe to execute a perfect braking manoeuvre using its British-made rocket engine. |
| If successful, Juno will then spend the better part of the next eighteen months sensing what lies beneath the planet's thick clouds. | If successful, Juno will then spend the better part of the next eighteen months sensing what lies beneath the planet's thick clouds. |
| The 35-minute orbit insertion burn - timed to to start at 03:18 GMT (04:18 BST) on Tuesday - is sure to jangle the nerves of everyone here in mission control at the Jet Propulsion Laboratory (JPL) in California. | |
| If the engine fails to fire at the right time or for an insufficient period, this $1.1bn (£800m) venture will simply fly straight past Jupiter and into the oblivion of deep space. | If the engine fails to fire at the right time or for an insufficient period, this $1.1bn (£800m) venture will simply fly straight past Jupiter and into the oblivion of deep space. |
| Juno will not have its main dish pointed at Earth during the braking procedure, so the mission team will have to follow events via a series of simple tones sent back through the probe's low-gain antenna. | Juno will not have its main dish pointed at Earth during the braking procedure, so the mission team will have to follow events via a series of simple tones sent back through the probe's low-gain antenna. |
| Assuming everything goes to plan, Juno's mission is to look down on the giant world to work out what it is made from and how it is put together. | Assuming everything goes to plan, Juno's mission is to look down on the giant world to work out what it is made from and how it is put together. |
| We should finally discover whether it has a solid core or if its gas merely compresses to an ever denser state all the way to the centre. | We should finally discover whether it has a solid core or if its gas merely compresses to an ever denser state all the way to the centre. |
| We should also gain new insights on the famous Great Red Spot - the colossal storm that has raged on Jupiter for hundreds of years. Juno will tell us how deep its roots go. | We should also gain new insights on the famous Great Red Spot - the colossal storm that has raged on Jupiter for hundreds of years. Juno will tell us how deep its roots go. |
| The principal investigator is Scott Bolton from the Southwest Research Institute in Texas. | The principal investigator is Scott Bolton from the Southwest Research Institute in Texas. |
| He says he cannot wait to get started, but he is also wary of flying so close to the biggest planet in the Solar System. | He says he cannot wait to get started, but he is also wary of flying so close to the biggest planet in the Solar System. |
| "Everything about Jupiter is extreme; it's a planet on steroids," he told BBC News. | "Everything about Jupiter is extreme; it's a planet on steroids," he told BBC News. |
| "Everything about it is 'the most'. So, it has the harshest radiation of any planetary environment in the entire Solar System; it has the strongest magnetic field; it's spinning around incredibly fast. | "Everything about it is 'the most'. So, it has the harshest radiation of any planetary environment in the entire Solar System; it has the strongest magnetic field; it's spinning around incredibly fast. |
| "We have to deal with this environment, and the spacecraft is literally an armoured tank." | "We have to deal with this environment, and the spacecraft is literally an armoured tank." |
| The radiation is a consequence of Jupiter's mighty magnetic field, which whips particles to near light-speed. | The radiation is a consequence of Jupiter's mighty magnetic field, which whips particles to near light-speed. |
| Experts have designed Juno's orbit such that it avoids dipping into the most hazardous regions that surround the planet. | Experts have designed Juno's orbit such that it avoids dipping into the most hazardous regions that surround the planet. |
| Engineers have also put sensitive electronics for probe's instruments and control systems inside a thick-walled titanium box. | Engineers have also put sensitive electronics for probe's instruments and control systems inside a thick-walled titanium box. |
| Even so, some equipment, such as the visible camera, is expected to fail before a formal end to the mission is called in early 2018. | Even so, some equipment, such as the visible camera, is expected to fail before a formal end to the mission is called in early 2018. |
| JPL engineer Heidi Becker said the success of Juno was going to depend absolutely on the protection it receives from its "suit of armour". | JPL engineer Heidi Becker said the success of Juno was going to depend absolutely on the protection it receives from its "suit of armour". |
| "[Without it], Juno would be experiencing a radiation dose of over 20 million rads, which is like a human undergoing 100 million dental X-rays in a little over a year," she explained. | "[Without it], Juno would be experiencing a radiation dose of over 20 million rads, which is like a human undergoing 100 million dental X-rays in a little over a year," she explained. |
| But it is only by getting in close to Jupiter - a little under 5,000km above the cloudtops on occasions - that Juno can acquire the data it seeks. | But it is only by getting in close to Jupiter - a little under 5,000km above the cloudtops on occasions - that Juno can acquire the data it seeks. |
| The satellite is equipped with nine instruments designed to study Jupiter's spectacular auroras and to look through the planet's many obscuring layers. | The satellite is equipped with nine instruments designed to study Jupiter's spectacular auroras and to look through the planet's many obscuring layers. |
| A key quest is to determine the abundance of water in the atmosphere - an indicator of how much oxygen was present in Jupiter's region of the Solar System when it formed, and perhaps a tell-tale of any migration it may have made from its original formation location. | A key quest is to determine the abundance of water in the atmosphere - an indicator of how much oxygen was present in Jupiter's region of the Solar System when it formed, and perhaps a tell-tale of any migration it may have made from its original formation location. |
| The uncertainty over the presence of a solid core should be resolved with the aid of very precise gravity measurements. | The uncertainty over the presence of a solid core should be resolved with the aid of very precise gravity measurements. |
| Scientists have models for how they think the centre of Jupiter behaves, but there is no way they can test the physics in an Earth lab. | Scientists have models for how they think the centre of Jupiter behaves, but there is no way they can test the physics in an Earth lab. |
| "The atmospheric pressure at Earth is about one bar; at the centre of Jupiter it is 80 million bar," explained mission team-member Fran Bagenal from the University of Colorado. "That's like a thousand elephants, one on top of the other, with the bottom elephant standing on a stiletto." | "The atmospheric pressure at Earth is about one bar; at the centre of Jupiter it is 80 million bar," explained mission team-member Fran Bagenal from the University of Colorado. "That's like a thousand elephants, one on top of the other, with the bottom elephant standing on a stiletto." |
| The orbit insertion burn on Tuesday will put Juno in a large ellipse around the planet that takes just over 53 days to complete. A second burn in mid-October will tighten the orbit to just 14 days. It is then that the science can really start. | The orbit insertion burn on Tuesday will put Juno in a large ellipse around the planet that takes just over 53 days to complete. A second burn in mid-October will tighten the orbit to just 14 days. It is then that the science can really start. |
| Nasa plans to run the mission through to February 2018. | Nasa plans to run the mission through to February 2018. |
| Juno will be commanded to end operations by ditching itself in the atmosphere of the planet. | Juno will be commanded to end operations by ditching itself in the atmosphere of the planet. |
| This ensures there is no possibility of the probe crashing into and contaminating Jupiter's large moons, at least one of which, Europa, is considered to have the potential to host microbial life. | This ensures there is no possibility of the probe crashing into and contaminating Jupiter's large moons, at least one of which, Europa, is considered to have the potential to host microbial life. |
| There will be updates on Juno's orbit insertion across BBC News, and the BBC Sky At Night programme will run a special programme dedicated to the mission on Sunday 10 July at 20:30 BST, on BBC Four. | |
| Jonathan.Amos-INTERNET@bbc.co.uk and follow me on Twitter: @BBCAmos | Jonathan.Amos-INTERNET@bbc.co.uk and follow me on Twitter: @BBCAmos |