Well, relatively speaking NO, since we cannot reproduce a metal that would withstand the extreme temperatures near the Sun, however if we really could build one that could withstand the temps, what would we really see? Nothing, we already know what it is, its molten lava. Would we learn the actual Suns age? No, since a part of the sun would have to die for us to learn this, we would get better age gathering solar wind.
A space probe's motion in space is primarily influenced by its initial velocity and the gravitational pull of celestial bodies like planets and moons. Once set in motion, a space probe will continue moving due to Newton's First Law of Motion, which states that an object in motion will stay in motion unless acted upon by an external force.
A probe keeps moving due to inertia, which is the tendency of an object in motion to stay in motion. Once the rocket stops pushing the probe, there are no external forces acting on it to slow it down. The probe continues moving through space until another force, such as gravity or collision with an object, acts upon it.
An equipotential surface in the context of electric fields is significant because it represents points that have the same electric potential. This means that no work is required to move a charge along an equipotential surface, making it a useful tool for understanding the behavior of electric fields and the distribution of charges in a given space.
The amount of space on the surface of an object is known as its surface area. In chemistry, it is a general rule that as the surface area of a substance increases, so too does the rate of chemical reaction.
The speed of the space probe will remain constant in the vacuum of space unless acted upon by an external force, as per Newton's first law of motion. Therefore, its speed will remain 2 x 10^4 m/s when it is far from Earth.
The weight of a space probe on the surface of Mars would be less than on Earth due to Mars having lower gravity. Mars has about 38% of Earth's gravity, so a space probe that weighs 1000 lbs on Earth would only weigh about 380 lbs on the surface of Mars.
No. This would not be possible as Neptune is made up of gas and does not have an actual surface.
The weight of a space probe on the surface of Jupiter would be significantly greater than its weight on Earth due to Jupiter's strong gravitational pull. Jupiter's gravity is about 24.79 m/s², which is roughly 2.5 times that of Earth's gravity. Therefore, to calculate the weight of the probe on Jupiter, you would multiply its mass by Jupiter's gravitational acceleration. For example, a 1,000 kg probe would weigh approximately 24,790 newtons on Jupiter.
No space probe has ever landed on Mercury.
Mariner 10
the difference between a probe and a lander is a lander is a spacecraft that desends and comes to rest on the surface of a planet/space object. while a probe is a device used to collect items and run tests to collect data.
the pictures was found in 1994 where the space probe was found by: bob marly
rover
Space probe is a station.
The space probe that has taken detailed photos of Mercury is the MESSENGER (MErcury Surface, Space ENvironment, GEochemistry, and Ranging) spacecraft. It orbited Mercury from 2011 to 2015 and provided valuable insights into the planet's surface and composition.
the purpose was to make a global map of the surface of Venus
Which space probe? there have been many.