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Destroy the forest!

245678

Comments

  • HeroBrian_333HeroBrian_333 Member Posts: 70
    Fire the Starkiller Base Weapon at the forest's star system. Direct Hit on all bodies in the said system.
  • ScribbliumScribblium Member Posts: 715 ✭✭

    I crush the forest with a giant ship


    -1000 HP
    Spheal said:

    Meteor rain

    -1000 HP

    Fire the Starkiller Base Weapon at the forest's star system. Direct Hit on all bodies in the said system.

    -10000 HP
    iceklaus said:

    Start wind God summoning 1/3

    TLGa2007 said:

    8 Massive Rockets are starting building 1/8

    THE FOREST GROWS!

    Forest's HP: 985,543/1,000,000
    Skills:
    Fireproof: (Fire attacks do 50% less damage)
    Xenophobia: (For five turns, no animals can damage the Forest)

    Player Skills:

    Lava_Entity:
    Pyromaniac: (Fire attacks linger for 2 turns)


    Relationship Status: 30i (Imaginary)
  • Lava_EntityLava_Entity Member Posts: 2,383 ✭✭✭
    not enough damage.


    Bigger ship


    cease your tomfoolery

  • HeroBrian_333HeroBrian_333 Member Posts: 70
    Huh..., expected that to kill the forest completely considering the planet(s) the forest is on no longer exist. oh well...

    Inject red matter into the system's sun, causing the sun to collapse in on itself and create a supernova, killing all living organisms within 1,000 lightyears
  • BrainstormBrainstorm Member Posts: 11,027 ✭✭✭✭✭
    I pollute the forest using MORE AMERICAN TOURISTS!
    "Calm your caps, bro." -Brainstorm

    the following link is the best thing that could happen to you: http://forum.dashnet.org/discussions/tagged/brainstormgame

    Currently managing a large-based forum game.. DashNet RPG! Play it now: http://forum.dashnet.org/discussion/15882/dashnet-rpg-dashnets-greatest-forum-game-of-all-time
    Dashnet RPG Pastebin: https://pastebin.com/6301gzzx
  • iceklausiceklaus Member Posts: 1,065 ✭✭✭
    Chanting and getting high

    Summoning 2/3
    the ones who dare have lives woth dying for

    shhhhh... nothing to see here
  • YosukeHanamuraYosukeHanamura Member Posts: 669 ✭✭
    2/?
    I use Mind Charge, so my next magical attack is buffed by a 250%
    In modern physics, antimatter is defined as a material composed of the antiparticle (or "partners") to the corresponding particles of ordinary matter.

    In theory, a particle and its anti-particle have the same mass as one another, but opposite electric charge, and other differences in quantum numbers. For example, a proton has positive charge while an antiproton has negative charge. A collision between any particle and its anti-particle partner is known to lead to their mutual annihilation, giving rise to various proportions of intense photons (gamma rays), neutrinos, and sometimes less-massive particle–antiparticle pairs.

    Annihilation usually results in a release of energy that becomes available for heat or work. The amount of the released energy is usually proportional to the total mass of the collided matter and antimatter, in accord with the mass–energy equivalence equation, E = mc2.

    Antimatter particles bind with one another to form antimatter, just as ordinary particles bind to form normal matter. For example, a positron (the antiparticle of the electron) and an antiproton (the antiparticle of the proton) can form an antihydrogen atom. Physical principles indicate that complex antimatter atomic nuclei are possible, as well as anti-atoms corresponding to the known chemical elements.

    There is considerable speculation as to why the observable universe is composed almost entirely of ordinary matter, as opposed to an equal mixture of matter and antimatter. This asymmetry of matter and antimatter in the visible universe is one of the great unsolved problems in physics. The process by which this inequality between matter and antimatter particles developed is called baryogenesis.

    Antimatter in the form of anti-atoms is one of the most difficult materials to produce. Individual antimatter particles, however, are commonly produced by particle accelerators and in some types of radioactive decay. The nuclei of antihelium have been artificially produced with difficulty. These are the most complex anti-nuclei so far observed.

    Formally, antimatter particles can be defined by their negative baryon number or lepton number, while "normal" (non-antimatter) matter particles have a positive baryon or lepton number. These two classes of particles are the antiparticle partners of one another.

    The idea of negative matter appears in past theories of matter that have now been abandoned. Using the once popular vortex theory of gravity, the possibility of matter with negative gravity was discussed by William Hicks in the 1880s. Between the 1880s and the 1890s, Karl Pearson proposed the existence of "squirts" and sinks of the flow of aether. The squirts represented normal matter and the sinks represented negative matter. Pearson's theory required a fourth dimension for the aether to flow from and into.

    The term antimatter was first used by Arthur Schuster in two rather whimsical letters to Nature in 1898, in which he coined the term. He hypothesized antiatoms, as well as whole antimatter solar systems, and discussed the possibility of matter and antimatter annihilating each other. Schuster's ideas were not a serious theoretical proposal, merely speculation, and like the previous ideas, differed from the modern concept of antimatter in that it possessed negative gravity.

    The modern theory of antimatter began in 1928, with a paper by Paul Dirac. Dirac realised that his relativistic version of the Schrödinger wave equation for electrons predicted the possibility of antielectrons. These were discovered by Carl D. Anderson in 1932 and named positrons (a portmanteau of "positive electron"). Although Dirac did not himself use the term antimatter, its use follows on naturally enough from antielectrons, antiprotons, etc. A complete periodic table of antimatter was envisaged by Charles Janet in 1929.

    The Feynman–Stueckelberg interpretation states that antimatter and antiparticles are regular particles traveling backward in time.

    There are compelling theoretical reasons to believe that, aside from the fact that antiparticles have different signs on all charges (such as electric charge and spin), matter and antimatter have exactly the same properties. This means a particle and its corresponding antiparticle must have identical masses and decay lifetimes (if unstable). It also implies that, for example, a star made up of antimatter (an "antistar") will shine just like an ordinary star. This idea was tested experimentally in 2016 by the ALPHA experiment, which measured the transition between the two lowest energy states of antihydrogen. The results, which are identical to that of hydrogen, confirmed the validity of quantum mechanics for antimatter.

    Positrons were reported in November 2008 to have been generated by Lawrence Livermore National Laboratory in larger numbers than by any previous synthetic process. A laser drove electrons through a gold target's nuclei, which caused the incoming electrons to emit energy quanta that decayed into both matter and antimatter. Positrons were detected at a higher rate and in greater density than ever previously detected in a laboratory. Previous experiments made smaller quantities of positrons using lasers and paper-thin targets; however, new simulations showed that short, ultra-intense lasers and millimeter-thick gold are a far more effective source.

    Antimatter cannot be stored in a container made of ordinary matter because antimatter reacts with any matter it touches, annihilating itself and an equal amount of the container. Antimatter in the form of charged particles can be contained by a combination of electric and magnetic fields, in a device called a Penning trap. This device cannot, however, contain antimatter that consists of uncharged particles, for which atomic traps are used. In particular, such a trap may use the dipole moment (electric or magnetic) of the trapped particles. At high vacuum, the matter or antimatter particles can be trapped and cooled with slightly off-resonant laser radiation using a magneto-optical trap or magnetic trap. Small particles can also be suspended with optical tweezers, using a highly focused laser beam.

    In 2011, CERN scientists were able to preserve antihydrogen for approximately 17 minutes.

    Scientists claim that antimatter is the costliest material to make. In 2006, Gerald Smith estimated $250 million could produce 10 milligrams of positrons (equivalent to $25 billion per gram); in 1999, NASA gave a figure of $62.5 trillion per gram of antihydrogen. This is because production is difficult (only very few antiprotons are produced in reactions in particle accelerators), and because there is higher demand for other uses of particle accelerators. According to CERN, it has cost a few hundred million Swiss francs to produce about 1 billionth of a gram (the amount used so far for particle/antiparticle collisions). In comparison, to produce the first atomic weapon, the cost of the Manhattan Project was estimated at $23 billion with inflation during 2007.

    Several studies funded by the NASA Institute for Advanced Concepts are exploring whether it might be possible to use magnetic scoops to collect the antimatter that occurs naturally in the Van Allen belt of the Earth, and ultimately, the belts of gas giants, like Jupiter, hopefully at a lower cost per gram.

    Matter–antimatter reactions have practical applications in medical imaging, such as positron emission tomography (PET). In positive beta decay, a nuclide loses surplus positive charge by emitting a positron (in the same event, a proton becomes a neutron, and a neutrino is also emitted). Nuclides with surplus positive charge are easily made in a cyclotron and are widely generated for medical use. Antiprotons have also been shown within laboratory experiments to have the potential to treat certain cancers, in a similar method currently used for ion (proton) therapy.

    Antimatter has been considered as a trigger mechanism for nuclear weapons. A major obstacle is the difficulty of producing antimatter in large enough quantities, and there is no evidence that it will ever be feasible. However, the U.S. Air Force funded studies of the physics of antimatter in the Cold War, and began considering its possible use in weapons, not just as a trigger, but as the explosive itself.
  • MrMonkey7thMrMonkey7th Member Posts: 1,305 ✭✭✭
    Drone factory 3/5
    e^i*π=-1
  • ScribbliumScribblium Member Posts: 715 ✭✭
    edited January 17

    not enough damage.


    Bigger ship


    -1 HP

    Huh..., expected that to kill the forest completely considering the planet(s) the forest is on no longer exist. oh well...

    Inject red matter into the system's sun, causing the sun to collapse in on itself and create a supernova, killing all living organisms within 1,000 lightyears

    THE SUN IS AN SCP OH GOD KILL IT KILL IT. +1000 HP
    TLGa2007 said:

    More rockets (2/8)

    iceklaus said:

    Chanting and getting high

    Summoning 2/3

    2/?
    I use Mind Charge, so my next magical attack is buffed by a 250%

    Drone factory 3/5

    I start healing (1/8)

    Forest's HP: 986,543/1,000,000
    Skills:
    Fireproof: (Fire attacks do 50% less damage)
    Relationship Status: 30i (Imaginary)
  • SirfishSirfish Member Posts: 1,327 ✭✭✭
    this game is bias

    create a single, raging immortal, that will travel across the forest consuming all plant life, in a desperate attempt to consume enough to not starve.
    I'm just here to do stuff and play games because I am unproductive and should learn how to do something with my life but instead i'm just going be here and do nothing
  • Lava_EntityLava_Entity Member Posts: 2,383 ✭✭✭
    more dmg

    i must


    SUCC


    cease your tomfoolery

  • BrainstormBrainstorm Member Posts: 11,027 ✭✭✭✭✭

    I pollute the forest using MORE AMERICAN TOURISTS!

    Yeah fucc you too
    "Calm your caps, bro." -Brainstorm

    the following link is the best thing that could happen to you: http://forum.dashnet.org/discussions/tagged/brainstormgame

    Currently managing a large-based forum game.. DashNet RPG! Play it now: http://forum.dashnet.org/discussion/15882/dashnet-rpg-dashnets-greatest-forum-game-of-all-time
    Dashnet RPG Pastebin: https://pastebin.com/6301gzzx
  • iceklausiceklaus Member Posts: 1,065 ✭✭✭
    edited January 18
    *sacrificing lemmings and screaming randomly over salmon coloured candles*

    SUMMMONING COMPLETE 3/3

    OH dear wind God

    Demonstrate your power, typhoons, cyclones and tornadoes!

    go, lay waste, rip leaves, unroot and revolve all! muhuahuahua
    Post edited by iceklaus on
    the ones who dare have lives woth dying for

    shhhhh... nothing to see here
  • MrMonkey7thMrMonkey7th Member Posts: 1,305 ✭✭✭
    Drone factory 4/5 Nearly there!
    e^i*π=-1
  • YosukeHanamuraYosukeHanamura Member Posts: 669 ✭✭
    I use Debilitate, lowering the forest's Attack/Defense/Hit and Evasion rate. 3/5
    In modern physics, antimatter is defined as a material composed of the antiparticle (or "partners") to the corresponding particles of ordinary matter.

    In theory, a particle and its anti-particle have the same mass as one another, but opposite electric charge, and other differences in quantum numbers. For example, a proton has positive charge while an antiproton has negative charge. A collision between any particle and its anti-particle partner is known to lead to their mutual annihilation, giving rise to various proportions of intense photons (gamma rays), neutrinos, and sometimes less-massive particle–antiparticle pairs.

    Annihilation usually results in a release of energy that becomes available for heat or work. The amount of the released energy is usually proportional to the total mass of the collided matter and antimatter, in accord with the mass–energy equivalence equation, E = mc2.

    Antimatter particles bind with one another to form antimatter, just as ordinary particles bind to form normal matter. For example, a positron (the antiparticle of the electron) and an antiproton (the antiparticle of the proton) can form an antihydrogen atom. Physical principles indicate that complex antimatter atomic nuclei are possible, as well as anti-atoms corresponding to the known chemical elements.

    There is considerable speculation as to why the observable universe is composed almost entirely of ordinary matter, as opposed to an equal mixture of matter and antimatter. This asymmetry of matter and antimatter in the visible universe is one of the great unsolved problems in physics. The process by which this inequality between matter and antimatter particles developed is called baryogenesis.

    Antimatter in the form of anti-atoms is one of the most difficult materials to produce. Individual antimatter particles, however, are commonly produced by particle accelerators and in some types of radioactive decay. The nuclei of antihelium have been artificially produced with difficulty. These are the most complex anti-nuclei so far observed.

    Formally, antimatter particles can be defined by their negative baryon number or lepton number, while "normal" (non-antimatter) matter particles have a positive baryon or lepton number. These two classes of particles are the antiparticle partners of one another.

    The idea of negative matter appears in past theories of matter that have now been abandoned. Using the once popular vortex theory of gravity, the possibility of matter with negative gravity was discussed by William Hicks in the 1880s. Between the 1880s and the 1890s, Karl Pearson proposed the existence of "squirts" and sinks of the flow of aether. The squirts represented normal matter and the sinks represented negative matter. Pearson's theory required a fourth dimension for the aether to flow from and into.

    The term antimatter was first used by Arthur Schuster in two rather whimsical letters to Nature in 1898, in which he coined the term. He hypothesized antiatoms, as well as whole antimatter solar systems, and discussed the possibility of matter and antimatter annihilating each other. Schuster's ideas were not a serious theoretical proposal, merely speculation, and like the previous ideas, differed from the modern concept of antimatter in that it possessed negative gravity.

    The modern theory of antimatter began in 1928, with a paper by Paul Dirac. Dirac realised that his relativistic version of the Schrödinger wave equation for electrons predicted the possibility of antielectrons. These were discovered by Carl D. Anderson in 1932 and named positrons (a portmanteau of "positive electron"). Although Dirac did not himself use the term antimatter, its use follows on naturally enough from antielectrons, antiprotons, etc. A complete periodic table of antimatter was envisaged by Charles Janet in 1929.

    The Feynman–Stueckelberg interpretation states that antimatter and antiparticles are regular particles traveling backward in time.

    There are compelling theoretical reasons to believe that, aside from the fact that antiparticles have different signs on all charges (such as electric charge and spin), matter and antimatter have exactly the same properties. This means a particle and its corresponding antiparticle must have identical masses and decay lifetimes (if unstable). It also implies that, for example, a star made up of antimatter (an "antistar") will shine just like an ordinary star. This idea was tested experimentally in 2016 by the ALPHA experiment, which measured the transition between the two lowest energy states of antihydrogen. The results, which are identical to that of hydrogen, confirmed the validity of quantum mechanics for antimatter.

    Positrons were reported in November 2008 to have been generated by Lawrence Livermore National Laboratory in larger numbers than by any previous synthetic process. A laser drove electrons through a gold target's nuclei, which caused the incoming electrons to emit energy quanta that decayed into both matter and antimatter. Positrons were detected at a higher rate and in greater density than ever previously detected in a laboratory. Previous experiments made smaller quantities of positrons using lasers and paper-thin targets; however, new simulations showed that short, ultra-intense lasers and millimeter-thick gold are a far more effective source.

    Antimatter cannot be stored in a container made of ordinary matter because antimatter reacts with any matter it touches, annihilating itself and an equal amount of the container. Antimatter in the form of charged particles can be contained by a combination of electric and magnetic fields, in a device called a Penning trap. This device cannot, however, contain antimatter that consists of uncharged particles, for which atomic traps are used. In particular, such a trap may use the dipole moment (electric or magnetic) of the trapped particles. At high vacuum, the matter or antimatter particles can be trapped and cooled with slightly off-resonant laser radiation using a magneto-optical trap or magnetic trap. Small particles can also be suspended with optical tweezers, using a highly focused laser beam.

    In 2011, CERN scientists were able to preserve antihydrogen for approximately 17 minutes.

    Scientists claim that antimatter is the costliest material to make. In 2006, Gerald Smith estimated $250 million could produce 10 milligrams of positrons (equivalent to $25 billion per gram); in 1999, NASA gave a figure of $62.5 trillion per gram of antihydrogen. This is because production is difficult (only very few antiprotons are produced in reactions in particle accelerators), and because there is higher demand for other uses of particle accelerators. According to CERN, it has cost a few hundred million Swiss francs to produce about 1 billionth of a gram (the amount used so far for particle/antiparticle collisions). In comparison, to produce the first atomic weapon, the cost of the Manhattan Project was estimated at $23 billion with inflation during 2007.

    Several studies funded by the NASA Institute for Advanced Concepts are exploring whether it might be possible to use magnetic scoops to collect the antimatter that occurs naturally in the Van Allen belt of the Earth, and ultimately, the belts of gas giants, like Jupiter, hopefully at a lower cost per gram.

    Matter–antimatter reactions have practical applications in medical imaging, such as positron emission tomography (PET). In positive beta decay, a nuclide loses surplus positive charge by emitting a positron (in the same event, a proton becomes a neutron, and a neutrino is also emitted). Nuclides with surplus positive charge are easily made in a cyclotron and are widely generated for medical use. Antiprotons have also been shown within laboratory experiments to have the potential to treat certain cancers, in a similar method currently used for ion (proton) therapy.

    Antimatter has been considered as a trigger mechanism for nuclear weapons. A major obstacle is the difficulty of producing antimatter in large enough quantities, and there is no evidence that it will ever be feasible. However, the U.S. Air Force funded studies of the physics of antimatter in the Cold War, and began considering its possible use in weapons, not just as a trigger, but as the explosive itself.
  • ScribbliumScribblium Member Posts: 715 ✭✭
    edited January 20
    Sirfish said:

    this game is bias

    create a single, raging immortal, that will travel across the forest consuming all plant life, in a desperate attempt to consume enough to not starve.

    It explodes (Hint: Look at the remains)

    more dmg

    i must


    SUCC


    The forest flies into the ship thing
    iceklaus said:

    *sacrificing lemmings and screaming randomly over salmon coloured candles*

    SUMMMONING COMPLETE 3/3

    OH dear wind God

    Demonstrate your power, typhoons, cyclones and tornadoes!

    go, lay waste, rip leaves, unroot and revolve all! muhuahuahua

    -100 HP for the next 5 turns

    I use Debilitate, lowering the forest's Attack/Defense/Hit and Evasion rate. 3/5

    Drone factory 4/5 Nearly there!

    Owie that hurt. I keep healing 2/8

    +200 HP

    Forest's HP: 987,543/1,000,000
    Skills:
    Fireproof: (Fire attacks do 50% less damage)
    Relationship Status: 30i (Imaginary)
  • YosukeHanamuraYosukeHanamura Member Posts: 669 ✭✭
    I use Heat Riser to raise my Attack/Defense/Hit and Evasion rate 4/5
    In modern physics, antimatter is defined as a material composed of the antiparticle (or "partners") to the corresponding particles of ordinary matter.

    In theory, a particle and its anti-particle have the same mass as one another, but opposite electric charge, and other differences in quantum numbers. For example, a proton has positive charge while an antiproton has negative charge. A collision between any particle and its anti-particle partner is known to lead to their mutual annihilation, giving rise to various proportions of intense photons (gamma rays), neutrinos, and sometimes less-massive particle–antiparticle pairs.

    Annihilation usually results in a release of energy that becomes available for heat or work. The amount of the released energy is usually proportional to the total mass of the collided matter and antimatter, in accord with the mass–energy equivalence equation, E = mc2.

    Antimatter particles bind with one another to form antimatter, just as ordinary particles bind to form normal matter. For example, a positron (the antiparticle of the electron) and an antiproton (the antiparticle of the proton) can form an antihydrogen atom. Physical principles indicate that complex antimatter atomic nuclei are possible, as well as anti-atoms corresponding to the known chemical elements.

    There is considerable speculation as to why the observable universe is composed almost entirely of ordinary matter, as opposed to an equal mixture of matter and antimatter. This asymmetry of matter and antimatter in the visible universe is one of the great unsolved problems in physics. The process by which this inequality between matter and antimatter particles developed is called baryogenesis.

    Antimatter in the form of anti-atoms is one of the most difficult materials to produce. Individual antimatter particles, however, are commonly produced by particle accelerators and in some types of radioactive decay. The nuclei of antihelium have been artificially produced with difficulty. These are the most complex anti-nuclei so far observed.

    Formally, antimatter particles can be defined by their negative baryon number or lepton number, while "normal" (non-antimatter) matter particles have a positive baryon or lepton number. These two classes of particles are the antiparticle partners of one another.

    The idea of negative matter appears in past theories of matter that have now been abandoned. Using the once popular vortex theory of gravity, the possibility of matter with negative gravity was discussed by William Hicks in the 1880s. Between the 1880s and the 1890s, Karl Pearson proposed the existence of "squirts" and sinks of the flow of aether. The squirts represented normal matter and the sinks represented negative matter. Pearson's theory required a fourth dimension for the aether to flow from and into.

    The term antimatter was first used by Arthur Schuster in two rather whimsical letters to Nature in 1898, in which he coined the term. He hypothesized antiatoms, as well as whole antimatter solar systems, and discussed the possibility of matter and antimatter annihilating each other. Schuster's ideas were not a serious theoretical proposal, merely speculation, and like the previous ideas, differed from the modern concept of antimatter in that it possessed negative gravity.

    The modern theory of antimatter began in 1928, with a paper by Paul Dirac. Dirac realised that his relativistic version of the Schrödinger wave equation for electrons predicted the possibility of antielectrons. These were discovered by Carl D. Anderson in 1932 and named positrons (a portmanteau of "positive electron"). Although Dirac did not himself use the term antimatter, its use follows on naturally enough from antielectrons, antiprotons, etc. A complete periodic table of antimatter was envisaged by Charles Janet in 1929.

    The Feynman–Stueckelberg interpretation states that antimatter and antiparticles are regular particles traveling backward in time.

    There are compelling theoretical reasons to believe that, aside from the fact that antiparticles have different signs on all charges (such as electric charge and spin), matter and antimatter have exactly the same properties. This means a particle and its corresponding antiparticle must have identical masses and decay lifetimes (if unstable). It also implies that, for example, a star made up of antimatter (an "antistar") will shine just like an ordinary star. This idea was tested experimentally in 2016 by the ALPHA experiment, which measured the transition between the two lowest energy states of antihydrogen. The results, which are identical to that of hydrogen, confirmed the validity of quantum mechanics for antimatter.

    Positrons were reported in November 2008 to have been generated by Lawrence Livermore National Laboratory in larger numbers than by any previous synthetic process. A laser drove electrons through a gold target's nuclei, which caused the incoming electrons to emit energy quanta that decayed into both matter and antimatter. Positrons were detected at a higher rate and in greater density than ever previously detected in a laboratory. Previous experiments made smaller quantities of positrons using lasers and paper-thin targets; however, new simulations showed that short, ultra-intense lasers and millimeter-thick gold are a far more effective source.

    Antimatter cannot be stored in a container made of ordinary matter because antimatter reacts with any matter it touches, annihilating itself and an equal amount of the container. Antimatter in the form of charged particles can be contained by a combination of electric and magnetic fields, in a device called a Penning trap. This device cannot, however, contain antimatter that consists of uncharged particles, for which atomic traps are used. In particular, such a trap may use the dipole moment (electric or magnetic) of the trapped particles. At high vacuum, the matter or antimatter particles can be trapped and cooled with slightly off-resonant laser radiation using a magneto-optical trap or magnetic trap. Small particles can also be suspended with optical tweezers, using a highly focused laser beam.

    In 2011, CERN scientists were able to preserve antihydrogen for approximately 17 minutes.

    Scientists claim that antimatter is the costliest material to make. In 2006, Gerald Smith estimated $250 million could produce 10 milligrams of positrons (equivalent to $25 billion per gram); in 1999, NASA gave a figure of $62.5 trillion per gram of antihydrogen. This is because production is difficult (only very few antiprotons are produced in reactions in particle accelerators), and because there is higher demand for other uses of particle accelerators. According to CERN, it has cost a few hundred million Swiss francs to produce about 1 billionth of a gram (the amount used so far for particle/antiparticle collisions). In comparison, to produce the first atomic weapon, the cost of the Manhattan Project was estimated at $23 billion with inflation during 2007.

    Several studies funded by the NASA Institute for Advanced Concepts are exploring whether it might be possible to use magnetic scoops to collect the antimatter that occurs naturally in the Van Allen belt of the Earth, and ultimately, the belts of gas giants, like Jupiter, hopefully at a lower cost per gram.

    Matter–antimatter reactions have practical applications in medical imaging, such as positron emission tomography (PET). In positive beta decay, a nuclide loses surplus positive charge by emitting a positron (in the same event, a proton becomes a neutron, and a neutrino is also emitted). Nuclides with surplus positive charge are easily made in a cyclotron and are widely generated for medical use. Antiprotons have also been shown within laboratory experiments to have the potential to treat certain cancers, in a similar method currently used for ion (proton) therapy.

    Antimatter has been considered as a trigger mechanism for nuclear weapons. A major obstacle is the difficulty of producing antimatter in large enough quantities, and there is no evidence that it will ever be feasible. However, the U.S. Air Force funded studies of the physics of antimatter in the Cold War, and began considering its possible use in weapons, not just as a trigger, but as the explosive itself.
  • iceklausiceklaus Member Posts: 1,065 ✭✭✭
    *"accidentally" drops a termite farm on the ground*
    the ones who dare have lives woth dying for

    shhhhh... nothing to see here
  • Lava_EntityLava_Entity Member Posts: 2,383 ✭✭✭
    ship explodes with forest inside
    cease your tomfoolery

  • BrainstormBrainstorm Member Posts: 11,027 ✭✭✭✭✭
    Why did you ignore me twice.
    "Calm your caps, bro." -Brainstorm

    the following link is the best thing that could happen to you: http://forum.dashnet.org/discussions/tagged/brainstormgame

    Currently managing a large-based forum game.. DashNet RPG! Play it now: http://forum.dashnet.org/discussion/15882/dashnet-rpg-dashnets-greatest-forum-game-of-all-time
    Dashnet RPG Pastebin: https://pastebin.com/6301gzzx
  • MrMonkey7thMrMonkey7th Member Posts: 1,305 ✭✭✭
    5/5 The drone factory is complete! It spawns tiny robots that attack the forest each turn.

    Maybe each drone does ten damage, and the factory spawns one drone per turn, so the first turn is ten damage, the second turn is 20, then 30, etc? Just an idea.
    e^i*π=-1
  • SirfishSirfish Member Posts: 1,327 ✭✭✭
    ok what's in the dead immortal

    (also, you should do damage per turn and stuff)
    I'm just here to do stuff and play games because I am unproductive and should learn how to do something with my life but instead i'm just going be here and do nothing
  • ScribbliumScribblium Member Posts: 715 ✭✭
    iceklaus said:

    *"accidentally" drops a termite farm on the ground*

    The trees eat them

    ship explodes with forest inside

    -10,000 "Pyromaniac" ability activated
    Sirfish said:

    ok what's in the dead immortal

    (also, you should do damage per turn and stuff)

    In the immortal, there's a note written in its blood. 'WE ARE IMMORTAL. CEASE.'

    5/5 The drone factory is complete! It spawns tiny robots that attack the forest each turn.

    Maybe each drone does ten damage, and the factory spawns one drone per turn, so the first turn is ten damage, the second turn is 20, then 30, etc? Just an idea.

    TLGa2007 said:

    31 rockets is ready! MORE ROCKETS FOR MORE DAMG.
    3/8

    -100 HP

    3/8 I heal more.
    3/8

    I use Heat Riser to raise my Attack/Defense/Hit and Evasion rate 4/5


    Forest's HP: 977,333/1,000,000
    Skills:
    Fireproof: (Fire attacks do 50% less damage)

    +1 Drone (10 Damage)
    Relationship Status: 30i (Imaginary)
  • Lava_EntityLava_Entity Member Posts: 2,383 ✭✭✭
    set the entire forest under lava ocean
    cease your tomfoolery

  • iceklausiceklaus Member Posts: 1,065 ✭✭✭
    wait what? oh... eating trees huh....

    start woody woodpecker summoning 1/3
    the ones who dare have lives woth dying for

    shhhhh... nothing to see here
  • YosukeHanamuraYosukeHanamura Member Posts: 669 ✭✭
    edited January 23
    I unleash Megidolaon (deals severe Almighty damage to all enemies) 5/5
    Post edited by YosukeHanamura on
    In modern physics, antimatter is defined as a material composed of the antiparticle (or "partners") to the corresponding particles of ordinary matter.

    In theory, a particle and its anti-particle have the same mass as one another, but opposite electric charge, and other differences in quantum numbers. For example, a proton has positive charge while an antiproton has negative charge. A collision between any particle and its anti-particle partner is known to lead to their mutual annihilation, giving rise to various proportions of intense photons (gamma rays), neutrinos, and sometimes less-massive particle–antiparticle pairs.

    Annihilation usually results in a release of energy that becomes available for heat or work. The amount of the released energy is usually proportional to the total mass of the collided matter and antimatter, in accord with the mass–energy equivalence equation, E = mc2.

    Antimatter particles bind with one another to form antimatter, just as ordinary particles bind to form normal matter. For example, a positron (the antiparticle of the electron) and an antiproton (the antiparticle of the proton) can form an antihydrogen atom. Physical principles indicate that complex antimatter atomic nuclei are possible, as well as anti-atoms corresponding to the known chemical elements.

    There is considerable speculation as to why the observable universe is composed almost entirely of ordinary matter, as opposed to an equal mixture of matter and antimatter. This asymmetry of matter and antimatter in the visible universe is one of the great unsolved problems in physics. The process by which this inequality between matter and antimatter particles developed is called baryogenesis.

    Antimatter in the form of anti-atoms is one of the most difficult materials to produce. Individual antimatter particles, however, are commonly produced by particle accelerators and in some types of radioactive decay. The nuclei of antihelium have been artificially produced with difficulty. These are the most complex anti-nuclei so far observed.

    Formally, antimatter particles can be defined by their negative baryon number or lepton number, while "normal" (non-antimatter) matter particles have a positive baryon or lepton number. These two classes of particles are the antiparticle partners of one another.

    The idea of negative matter appears in past theories of matter that have now been abandoned. Using the once popular vortex theory of gravity, the possibility of matter with negative gravity was discussed by William Hicks in the 1880s. Between the 1880s and the 1890s, Karl Pearson proposed the existence of "squirts" and sinks of the flow of aether. The squirts represented normal matter and the sinks represented negative matter. Pearson's theory required a fourth dimension for the aether to flow from and into.

    The term antimatter was first used by Arthur Schuster in two rather whimsical letters to Nature in 1898, in which he coined the term. He hypothesized antiatoms, as well as whole antimatter solar systems, and discussed the possibility of matter and antimatter annihilating each other. Schuster's ideas were not a serious theoretical proposal, merely speculation, and like the previous ideas, differed from the modern concept of antimatter in that it possessed negative gravity.

    The modern theory of antimatter began in 1928, with a paper by Paul Dirac. Dirac realised that his relativistic version of the Schrödinger wave equation for electrons predicted the possibility of antielectrons. These were discovered by Carl D. Anderson in 1932 and named positrons (a portmanteau of "positive electron"). Although Dirac did not himself use the term antimatter, its use follows on naturally enough from antielectrons, antiprotons, etc. A complete periodic table of antimatter was envisaged by Charles Janet in 1929.

    The Feynman–Stueckelberg interpretation states that antimatter and antiparticles are regular particles traveling backward in time.

    There are compelling theoretical reasons to believe that, aside from the fact that antiparticles have different signs on all charges (such as electric charge and spin), matter and antimatter have exactly the same properties. This means a particle and its corresponding antiparticle must have identical masses and decay lifetimes (if unstable). It also implies that, for example, a star made up of antimatter (an "antistar") will shine just like an ordinary star. This idea was tested experimentally in 2016 by the ALPHA experiment, which measured the transition between the two lowest energy states of antihydrogen. The results, which are identical to that of hydrogen, confirmed the validity of quantum mechanics for antimatter.

    Positrons were reported in November 2008 to have been generated by Lawrence Livermore National Laboratory in larger numbers than by any previous synthetic process. A laser drove electrons through a gold target's nuclei, which caused the incoming electrons to emit energy quanta that decayed into both matter and antimatter. Positrons were detected at a higher rate and in greater density than ever previously detected in a laboratory. Previous experiments made smaller quantities of positrons using lasers and paper-thin targets; however, new simulations showed that short, ultra-intense lasers and millimeter-thick gold are a far more effective source.

    Antimatter cannot be stored in a container made of ordinary matter because antimatter reacts with any matter it touches, annihilating itself and an equal amount of the container. Antimatter in the form of charged particles can be contained by a combination of electric and magnetic fields, in a device called a Penning trap. This device cannot, however, contain antimatter that consists of uncharged particles, for which atomic traps are used. In particular, such a trap may use the dipole moment (electric or magnetic) of the trapped particles. At high vacuum, the matter or antimatter particles can be trapped and cooled with slightly off-resonant laser radiation using a magneto-optical trap or magnetic trap. Small particles can also be suspended with optical tweezers, using a highly focused laser beam.

    In 2011, CERN scientists were able to preserve antihydrogen for approximately 17 minutes.

    Scientists claim that antimatter is the costliest material to make. In 2006, Gerald Smith estimated $250 million could produce 10 milligrams of positrons (equivalent to $25 billion per gram); in 1999, NASA gave a figure of $62.5 trillion per gram of antihydrogen. This is because production is difficult (only very few antiprotons are produced in reactions in particle accelerators), and because there is higher demand for other uses of particle accelerators. According to CERN, it has cost a few hundred million Swiss francs to produce about 1 billionth of a gram (the amount used so far for particle/antiparticle collisions). In comparison, to produce the first atomic weapon, the cost of the Manhattan Project was estimated at $23 billion with inflation during 2007.

    Several studies funded by the NASA Institute for Advanced Concepts are exploring whether it might be possible to use magnetic scoops to collect the antimatter that occurs naturally in the Van Allen belt of the Earth, and ultimately, the belts of gas giants, like Jupiter, hopefully at a lower cost per gram.

    Matter–antimatter reactions have practical applications in medical imaging, such as positron emission tomography (PET). In positive beta decay, a nuclide loses surplus positive charge by emitting a positron (in the same event, a proton becomes a neutron, and a neutrino is also emitted). Nuclides with surplus positive charge are easily made in a cyclotron and are widely generated for medical use. Antiprotons have also been shown within laboratory experiments to have the potential to treat certain cancers, in a similar method currently used for ion (proton) therapy.

    Antimatter has been considered as a trigger mechanism for nuclear weapons. A major obstacle is the difficulty of producing antimatter in large enough quantities, and there is no evidence that it will ever be feasible. However, the U.S. Air Force funded studies of the physics of antimatter in the Cold War, and began considering its possible use in weapons, not just as a trigger, but as the explosive itself.
  • BonkersTheBucketBonkersTheBucket Member Posts: 137 ✭✭
    I use a giant flying razor blade that slices any tree standing in its way to stumps!
    the one who gives AI inspiration
  • SirfishSirfish Member Posts: 1,327 ✭✭✭
    I'm gonna upgrade the drone factory to make missile drones, that deal more damage per turn, along with the regular drones
    1/3
    I'm just here to do stuff and play games because I am unproductive and should learn how to do something with my life but instead i'm just going be here and do nothing
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