When the Earth/Moon distance is 238,000 miles, it's in the neighborhood of
214,100 miles from Earth, 23,900 miles from the moon.
The answer can't be rock-solid, because the Earth/Moon distance is so variable.
It's currently not possible to fly a jet directly to Mars due to the vast distance and differences in atmosphere. Traveling to Mars would require a spacecraft, such as those used by NASA or other space agencies, and can take several months depending on the specific trajectory and technology used.
The time it takes to travel from Earth to Jupiter depends on the spacecraft's speed and trajectory. For example, NASA's Juno spacecraft took about 5 years to reach Jupiter, traveling at an average speed of about 130,000 miles per hour. Future missions may be faster or slower depending on the specific spacecraft and route chosen.
It would take approximately 13 months to reach Jupiter if the spacecraft maintains an average speed of 55,000 mph. This estimate is based on the average distance between Earth and Jupiter when they are at their closest points in their orbits.
It ends buy traveling a great distance!
While traveling to Neptune, you may encounter various celestial objects such as asteroids, comets, and other dwarf planets (like Pluto or Eris). Additionally, you may come across the moons of Neptune, such as Triton, Nereid, or Proteus. However, due to Neptune's distance and isolation, encounters with man-made objects or spacecraft are unlikely.
To find the speed of the spacecraft, you would divide the distance by the time taken. Speed = Distance/Time. In this case, 192,000,000 km / 200 days = 960,000 km/day. So, the spacecraft was traveling at an average speed of 960,000 km/day.
Speed is directly proportional to energy in case of Einstein equation.
They might be, if they passed closely enough, or if they were big enough. Spacecraft could experience severe tidal stresses if they passed too close to a neutron star or to a black hole. Science fiction author Larry Niven wrote a story "Neutron Star" about fictional spacecraft's close approach to a neutron star.
traveling is not about distance is it about what you learn form the journey. it does not matter how long it takes use the time to meet people and learn about their experience of life.
It depends on how fast you are traveling, Apollo astronauts orbited the moon for three days,then landed on the surface the fourth day.
Calculate the distance the spacecraft traveled, with the formula: distance = speed x time Then divide that distance by the speed of light, since radio waves travel at the speed of light. You may have to do some unit conversions for both parts of the calculation.
You multiply the speed at which you are traveling by the time spent traveling.
It's currently not possible to fly a jet directly to Mars due to the vast distance and differences in atmosphere. Traveling to Mars would require a spacecraft, such as those used by NASA or other space agencies, and can take several months depending on the specific trajectory and technology used.
Speed directly affects stopping distance: the faster a vehicle is traveling, the longer it will take to come to a complete stop. This is due to the increased momentum and energy that needs to be dissipated through braking. In general, the higher the speed, the longer the stopping distance.
The time it takes to travel from Earth to Jupiter depends on the spacecraft's speed and trajectory. For example, NASA's Juno spacecraft took about 5 years to reach Jupiter, traveling at an average speed of about 130,000 miles per hour. Future missions may be faster or slower depending on the specific spacecraft and route chosen.
Not necessarily. The distance a car travels is determined by its speed and the time it spends traveling. If a car is traveling at a slower speed but for a longer period of time, it may not cover as much distance as a car traveling at a faster speed but for a shorter period of time. So, the longest time does not always correspond to the greatest distance traveled.
The average speed of a spacecraft is calculated by dividing the total distance traveled by the spacecraft by the total time taken to travel that distance. This formula is represented as average speed = total distance / total time. It is important to note that the average speed may vary depending on the specific segment of the journey being considered due to changes in velocity and acceleration.