I am now focused on novel writing, but prior to that I had written several screenplays including this one for a Spider-Man sequel to the Sam Raimi directed trilogy. As I have been a die-hard Spider-Man fan since I was three years-old and being also a big movie buff, I thought I could put those two loves together and write a Spider-Man 4 script that I would love to see on the big screen.
As many of the storylines were wrapped up in Spider-Man 3, I wanted to continue the story with the next chapter in Peter Parker's journey but breathe some new life into it so it ends with a nice set up for future Spider-Man films. This script is loosely inspired by the popular "Kraven's Last Hunt" storyline. The synopsis is as follows:
Having lost both his best friend and the love of his life, Peter Parker tries to push his personal and professional life forward after graduating from University. But both Peter's future and that of his superhero alter-ego are threatened when two foreigners come to New York with a plot to bury Spider-Man once and for all. After seemingly defeating Spider-Man, with the help of The Chameleon, Kraven the Hunter takes up Spidey's post of New York's "protector", throwing the city into a deadly panic only one man can end. But will our hero rise from the ground or is this truly the end for the city... and for Spider-Man?
Unfortunately, due to a large amount of spam, I have had to turn off the ability to leave comments. Previous comments, however, can still be read below.
Enjoy! Click here to read about my other projects and here to contact me.
Based on characters owned by Marvel Entertainment, Inc. This script is Un-Official. It is not associated with Marvel. It uses content copyright by Marvel, without permission as fan-fiction. This material is used for the purposes of informed discussion, and is not intended to interfere with Marvel's right to use said material for their own commercial goals.
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If time moves differently on the peaks of mountains than the shores of the ocean, you can imagine that things get even more bizarre the farther away from Earth you travel.
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To add more complication: Time also passes slower the faster a person or spacecraft is moving, according to Einstein’s theory of special relativity.
Astronauts on the International Space Station, for example, are lucky, said Dr. Bijunath Patla, a theoretical physicist with the US National Institute of Standards and Technology, in a phone interview. Though the space station orbits about 200 miles (322 kilometers) above Earth’s surface, it also travels at high speeds — looping the planet 16 times per day — so the effects of relativity somewhat cancel each other out, Patla said. For that reason, astronauts on the orbiting laboratory can easily use Earth time to stay on schedule.
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For other missions — it’s not so simple.
Fortunately, scientists already have decades of experience contending with the complexities.
Spacecraft, for example, are equipped with their own clocks called oscillators, Gramling said.
“They maintain their own time,” Gramling said. “And most of our operations for spacecraft — even spacecraft that are all the way out at Pluto, or the Kuiper Belt, like New Horizons — (rely on) ground stations that are back on Earth. So everything they’re doing has to correlate with UTC.”
But those spacecraft also rely on their own kept time, Gramling said. Vehicles exploring deep into the solar system, for example, have to know — based on their own time scale — when they are approaching a planet in case the spacecraft needs to use that planetary body for navigational purposes, she added.
For 50 years, scientists have also been able to observe atomic clocks that are tucked aboard GPS satellites, which orbit Earth about 12,550 miles (20,200 kilometers) away — or about one-nineteenth the distance between our planet and the moon.
Studying those clocks has given scientists a great starting point to begin extrapolating further as they set out to establish a new time scale for the moon, Patla said.
“We can easily compare (GPS) clocks to clocks on the ground,” Patla said, adding that scientists have found a way to gently slow GPS clocks down, making them tick more in-line with Earth-bound clocks. “Obviously, it’s not as easy as it sounds, but it’s easier than making a mess.”
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Historia dokumentów kolekcjonerskich
Kolekcjonowanie dokumentów ma swoje korzenie w XIX wieku, kiedy to zainteresowanie historia i archeologia zaczelo rosnac wsród zamozniejszych warstw spolecznych. Z czasem, obok starozytnych rekopisów i ksiazek, pojawilo sie równiez zainteresowanie dokumentami o bardziej wspólczesnym charakterze, takimi jak bilety z wydarzen kulturalnych, legitymacje czy inne przedmioty zwiazane z codziennym zyciem.
W XX wieku, zwlaszcza po I wojnie swiatowej, dokumenty takie jak paszporty czy dowody osobiste zaczely byc postrzegane jako cenne pamiatki rodzinne, a takze interesujace obiekty dla kolekcjonerów. Ich wartosc wynikala nie tylko z ich rzadkosci, ale takze z kontekstu historycznego, w jakim powstaly i byly uzywane.
Wartosc dokumentów kolekcjonerskich
Wartosc dokumentów kolekcjonerskich zalezy od wielu czynników, takich jak ich stan, wiek, rzadkosc oraz historyczne znaczenie. Na przyklad, paszport z okresu miedzywojennego nalezacy do znanej postaci historycznej moze osiagnac na aukcjach wysoka cene. Z kolei bilety z waznych wydarzen sportowych czy koncertów moga byc poszukiwane przez kolekcjonerów z calego swiata.
Wartosc dokumentów czesto wzrasta, gdy sa one zwiazane z waznymi momentami w historii, takimi jak wojny, rewolucje, czy zmiany polityczne. Na przyklad, dokumenty z czasów PRL-u, takie jak legitymacje partyjne czy przepustki graniczne, moga byc szczególnie cenione przez kolekcjonerów zainteresowanych historia Polski.
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If time moves differently on the peaks of mountains than the shores of the ocean, you can imagine that things get even more bizarre the farther away from Earth you travel.
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To add more complication: Time also passes slower the faster a person or spacecraft is moving, according to Einstein’s theory of special relativity.
Astronauts on the International Space Station, for example, are lucky, said Dr. Bijunath Patla, a theoretical physicist with the US National Institute of Standards and Technology, in a phone interview. Though the space station orbits about 200 miles (322 kilometers) above Earth’s surface, it also travels at high speeds — looping the planet 16 times per day — so the effects of relativity somewhat cancel each other out, Patla said. For that reason, astronauts on the orbiting laboratory can easily use Earth time to stay on schedule.
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For other missions — it’s not so simple.
Fortunately, scientists already have decades of experience contending with the complexities.
Spacecraft, for example, are equipped with their own clocks called oscillators, Gramling said.
“They maintain their own time,” Gramling said. “And most of our operations for spacecraft — even spacecraft that are all the way out at Pluto, or the Kuiper Belt, like New Horizons — (rely on) ground stations that are back on Earth. So everything they’re doing has to correlate with UTC.”
But those spacecraft also rely on their own kept time, Gramling said. Vehicles exploring deep into the solar system, for example, have to know — based on their own time scale — when they are approaching a planet in case the spacecraft needs to use that planetary body for navigational purposes, she added.
For 50 years, scientists have also been able to observe atomic clocks that are tucked aboard GPS satellites, which orbit Earth about 12,550 miles (20,200 kilometers) away — or about one-nineteenth the distance between our planet and the moon.
Studying those clocks has given scientists a great starting point to begin extrapolating further as they set out to establish a new time scale for the moon, Patla said.
“We can easily compare (GPS) clocks to clocks on the ground,” Patla said, adding that scientists have found a way to gently slow GPS clocks down, making them tick more in-line with Earth-bound clocks. “Obviously, it’s not as easy as it sounds, but it’s easier than making a mess.”
What scientists know for certain is that they need to get precision timekeeping instruments to the moon.
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Exactly who pays for lunar clocks, which type of clocks will go, and where they’ll be positioned are all questions that remain up in the air, Gramling said.
“We have to work all of this out,” she said. “I don’t think we know yet. I think it will be an amalgamation of several different things.”
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Atomic clocks, Gramling noted, are great for long-term stability, and crystal oscillators have an advantage for short-term stability.
“You never trust one clock,” Gramling added. “And you never trust two clocks.”
Clocks of various types could be placed inside satellites that orbit the moon or perhaps at the precise locations on the lunar surface that astronauts will one day visit.
As for price, an atomic clock worthy of space travel could cost around a few million dollars, according Gramling, with crystal oscillators coming in substantially cheaper.
But, Patla said, you get what you pay for.
“The very cheap oscillators may be off by milliseconds or even 10s of milliseconds,” he added. “And that is important because for navigation purposes — we need to have the clocks synchronized to 10s of nanoseconds.”
A network of clocks on the moon could work in concert to inform the new lunar time scale, just as atomic clocks do for UTC on Earth.
(There will not, Gramling added, be different time zones on the moon. “There have been conversations about creating different zones, with the answer: ‘No,’” she said. “But that could change in the future.”)