Prepare to enter phase nine of television's perpetual laughter experiment as THE BIG BANG THEORY successfully fuses the elements of science and sitcom. Dr. Leonard Leakey Hofstadter und Dr. Sheldon Cooper sind geniale Physiker, arbeiten im selben Institut und teilen sich eine Wohnung. Im Umgang mit der sozialen Umwelt hingegen hat vor allem Sheldon seine Schwierigkeiten. Zu ihrem Freundeskreis. "The Big Bang Theory" ist eine US-amerikanische Sitcom, die vom alltäglichen Leben der drei nerdigen Physiker Leonard, Sheldon und Raj, sowie dem. <
The Big Bang Theory - Staffel 11 [2 DVDs]The Big Bang Theory (englisch für „Die Urknalltheorie“) ist eine US-amerikanische Sitcom von Chuck Lorre und Bill Prady, die vom September bis zum. The Big Bang Theory - Staffel 12 DVD im Onlineshop von MediaMarkt kaufen. Jetzt bequem online bestellen. The Big Bang Theory [dt./OV]. Staffel 1. Staffel 1 · Staffel 2 · Staffel 3 · Staffel 4 · Staffel 5 · Staffel 6 · Staffel 7 · Staffel 8 · Staffel 9 · Staffel 10 · Staffel 11 · Staffel
Bigbang Theory Determining the age of the universe VideoBig Bang Theory I Best of Season 1
Amy tells Sheldon that she needs to think about the future of their relationship, unaware that Sheldon was about to propose to her. Season nine sees Sheldon harassing Amy about making up her mind until she breaks up with him.
Both struggle with singlehood and trying to be friends for the next few weeks until they reunite in episode ten and have sex for the first time on Amy's birthday.
In season ten, Amy's apartment is flooded, and she and Sheldon decide to move in together into Penny's apartment as part of a five-week experiment to determine compatibility with each other's living habits.
It goes well and they decide to make the arrangement permanent. In the season eleven premiere, Sheldon proposes to Amy and she accepts.
The two get married in the eleventh-season finale. In the show, the song "Soft Kitty" was described by Sheldon as a song sung by his mother when he was ill.
Its repeated use in the series popularized the song. It shows Sheldon's mother Mary singing the song to her son, who is suffering with the flu.
In scenes set at Howard's home, he interacts with his rarely-seen mother voiced by Carol Ann Susi until her death by shouting from room to room in the house.
She similarly interacts with other characters in this manner. She is dependent on Howard, as she requires him to help her with her wig and makeup in the morning.
Howard, in turn, is attached to his mother to the point where she still cuts his meat for him, takes him to the dentist, does his laundry and "grounds" him when he returns home after briefly moving out.
In the apartment building where Sheldon, Leonard and Penny and later Amy live, the elevator has been out of order throughout most of the series, forcing characters to have to use the stairs.
Stairway conversations between characters occur in almost every episode, often serving as a transition between longer scenes.
The Season 3 episode, "The Staircase Implementation" reveals that the elevator was broken when Leonard was experimenting with rocket fuel.
Like most shows created by Chuck Lorre, The Big Bang Theory ends by showing for one second a vanity card written by Lorre after the credits, followed by the Warner Bros.
Television closing logo. These cards are archived on Lorre's website. Although the initial reception was mixed,  the show has since then received generally positive reviews.
The Big Bang Theory started off slowly in the ratings, failing to make the top 50 in its first season ranking 68th , and ranking 40th in its second season.
When the third season premiered on September 21, , however, The Big Bang Theory ranked as CBS's highest-rated show of that evening in the adults 18—49 demographic 4.
However, in the age 18—49 demographic the show's target age range , it was the second highest rated comedy, behind ABC 's Modern Family.
The fifth season opened with viewing figures of over 14 million. The sixth season boasts some of the highest-rated episodes for the show so far, with a then-new series high set with " The Bakersfield Expedition ", with 20 million viewers,  a first for the series, which along with NCIS , made CBS the first network to have two scripted series reach that large an audience in the same week since In the sixth season, the show became the highest rated and viewed scripted show in the 18—49 demographic, trailing only the live regular NBC Sunday Night Football coverage,   and was third in total viewers, trailing NCIS and Sunday Night Football.
Showrunner Steve Molaro, who took over from Bill Prady with the sixth season, credits some of the show's success to the sitcom's exposure in off-network syndication , particularly on TBS , while Michael Schneider of TV Guide attributes it to the timeslot move two seasons earlier.
Chuck Lorre and CBS Entertainment president Nina Tassler also credit the success to the influence of Molaro, in particular the deepening exploration of the firmly established regular characters and their interpersonal relationships, such as the on-again, off-again relationship between Leonard and Penny.
By the end of the —13 television season, The Big Bang Theory had dethroned Judge Judy as the ratings leader in all of syndicated programming with 7.
The show made its United Kingdom debut on Channel 4 on February 14, The show was also shown as a 'first-look' on Channel 4's digital offshoot E4 prior to the main channel's airing.
While the show's ratings were not deemed strong enough for the main channel, they were considered the opposite for E4.
For each following season, all episodes were shown first-run on E4, with episodes only aired on the main channel in a repeat capacity, usually on a weekend morning.
From the third season, the show aired in two parts, being split so that it could air new episodes for longer throughout the year.
This was due to rising ratings. This gave the show an overall total of 1. The increased ratings continued over subsequent weeks.
The fourth season's second half began on June 30, Episode 19, the highest-viewed episode of the season, attracted 1.
The sixth season returned in mid to finish airing the remaining episodes. The second half of season seven aired in mid Following the airing of the first eight episodes of that show's fourth season, The Big Bang Theory returned to finish airing its eighth season on March 19, The Big Bang Theory started off quietly in Canada, but managed to garner major success in later seasons.
The Big Bang Theory is telecast throughout Canada via the CTV Television Network in simultaneous substitution with cross-border CBS affiliates.
Now immensely popular in Canada, The Big Bang Theory is also rerun daily on the Canadian cable channel The Comedy Network.
The season 4 premiere garnered an estimated 3. This is the largest audience for a sitcom since the series finale of Friends.
The Big Bang Theory has pulled ahead and has now become the most-watched entertainment television show in Canada. The Big Bang Theory premiered in the United States on September 24, on CBS.
The series debuted in Canada on CTV in September In May , it was reported that the show had been picked up for syndication , mainly among Fox 's owned and operated stations and other local stations, with Warner Bros.
Television's sister cable network TBS holding the show's cable syndication rights. Broadcast of old shows began airing in September TBS now airs the series in primetime on Tuesdays, Wednesdays, and Thursdays, with evening broadcasts on Saturdays TBS's former local sister station in Atlanta also holds local weeknight rights to the series.
Warner Bros. Television controls the online rights for the show. In , the show became available in the United States on HBO Max.
The first and second seasons were only available on DVD at their time of release in  and In , Warner Bros.
In August , the sitcom won the best comedy series TCA award and Jim Parsons Sheldon won the award for individual achievement in comedy.
On September 18, , Parsons was again awarded an Emmy for Best Actor in a Comedy Series. On January 9, , the show won People's Choice Award for Favorite Comedy for the second time.
August 25, , Jim Parsons was awarded an Emmy for Best Actor in a Comedy Series. On March 16, , a Lego Ideas project  portraying the living room scene in Lego style with the main cast as mini-figures reached 10, supporters on the platform, which qualified it to be considered as an official set by the Lego Ideas review board.
On November 7, , Lego Ideas approved the design and began refining it. The set was released in August , with an exclusive pre-sale taking place at the San Diego Comic-Con International.
Through the use of his vanity cards at the end of episodes, Lorre alleged that the program had been plagiarized by a show produced and aired in Belarus.
The television production company and station's close relationship with the Belarus government was cited as the reason that any attempt to claim copyright infringement would be in vain because the company copying the episodes is operated by the government.
However, no legal action was required to end production of the other show: as soon as it became known that the show was unlicensed, the actors quit and the producers canceled it.
At first, the actors were told all legal issues were resolved. We didn't know it wasn't the case, so when the creators of The Big Bang Theory started talking about the show, I was embarrassed.
I can't understand why our people first do, and then think. I consider this to be the rock bottom of my career.
And I don't want to take part in a stolen show". In November , it was reported that CBS was in negotiations to create a spin-off of The Big Bang Theory centered on Sheldon as a young boy.
The prequel series, described as "a Malcolm in the Middle -esque single-camera family comedy" would be executive-produced by Lorre and Molaro, with Prady expected to be involved in some capacity, and intended to air in the —18 season alongside The Big Bang Theory.
Perry is the real-life daughter of Laurie Metcalf , who portrays Mary Cooper on The Big Bang Theory.
On March 13, , CBS ordered the spin-off Young Sheldon series. Jon Favreau directed and executive produced the pilot.
Created by Lorre and Molaro, the series follows 9-year-old Sheldon Cooper as he attends high school in East Texas.
Alongside Armitage as 9-year-old Sheldon Cooper and Perry as Mary Cooper, Lance Barber stars as George Cooper, Sheldon's father; Raegan Revord stars as Missy Cooper, Sheldon's twin sister; and Montana Jordan as George Cooper Jr.
Jim Parsons reprises his role as adult Sheldon Cooper, as narrator for the series. Parsons, Lorre, Molaro and Todd Spiewak will also serve as executive producers on the series, for Chuck Lorre Productions, Inc.
Subsequent weekly episodes began airing on November 2, following the broadcast of the th episode of The Big Bang Theory. Armitage appeared on the series' th episode, "The VCR Illumination", by way of a videotape recorded by the younger Sheldon and viewed by the current-day Sheldon.
On January 6, , the show was renewed for a second season. On May 16, , a television special titled Unraveling the Mystery: A Big Bang Farewell aired following the series finale of The Big Bang Theory.
It's a backstage retrospective featuring Johnny Galecki and Kaley Cuoco. From Wikipedia, the free encyclopedia. American television sitcom. This article is about the television series.
For the scientific theory for which the series is named, see Big Bang. For other uses, see Big Bang Theory disambiguation. For the Discovery Channel series, see The Big Brain Theory.
Chuck Lorre Bill Prady. Johnny Galecki Jim Parsons Kaley Cuoco Simon Helberg Kunal Nayyar Sara Gilbert Mayim Bialik Melissa Rauch Kevin Sussman Laura Spencer.
Chuck Lorre Bill Prady both; entire run Lee Aronsohn —11 Steven Molaro —19 Eric Kaplan Maria Ferrari Dave Goetsch all; — Chuck Lorre Productions Warner Bros.
Main article: List of The Big Bang Theory and Young Sheldon characters. This section describes a work or element of fiction in a primarily in-universe style.
Tv shows watched. To-Do TV series. Share this Rating Title: The Big Bang Theory — 8. Use the HTML below.
You must be a registered user to use the IMDb rating plugin. Show HTML View more styles. User Polls Comic-Con Panels - TV Sitcoms That Epitomize Friendship Non-Animated TV Show Sing-along Fall Returning TV Premieres: Sept.
Episodes Seasons. Won 1 Golden Globe. Edit Cast Series cast summary: Johnny Galecki Leonard Hofstadter episodes, Jim Parsons Sheldon Cooper episodes, Kaley Cuoco Howard Wolowitz episodes, Kunal Nayyar Raj Koothrappali episodes, Melissa Rauch Bernadette Rostenkowski episodes, Mayim Bialik Edit Storyline Leonard Hofstadter and Sheldon Cooper are both brilliant physicists working at Cal Tech in Pasadena, California.
Taglines: When beauty meets the brains. Arno Penzias and Robert Wilson, both of Bell Telephone Laboratories in Murray Hill, New Jersey, were building a radio receiver in and picking up higher-than-expected temperatures, according to NASA.
At first, they thought the anomaly was due to pigeons and their dung, but even after cleaning up the mess and killing pigeons that tried to roost inside the antenna , the anomaly persisted.
Simultaneously, a Princeton University team led by Robert Dicke was trying to find evidence of the CMB, and realized that Penzias and Wilson had stumbled upon it.
The teams each published papers in the Astrophysical Journal in The cosmic microwave background has been observed on many missions.
One of the most famous space-faring missions was NASA's Cosmic Background Explorer COBE satellite, which mapped the sky in the s.
Several other missions have followed in COBE's footsteps, such as the BOOMERanG experiment Balloon Observations of Millimetric Extragalactic Radiation and Geophysics , NASA's Wilkinson Microwave Anisotropy Probe WMAP and the European Space Agency's Planck satellite.
Planck's observations, first released in , mapped the background in unprecedented detail and revealed that the universe was older than previously thought: The maps give rise to new mysteries, however, such as why the Southern Hemisphere appears slightly redder warmer than the Northern Hemisphere.
Les personnages s'y rencontrent de temps en temps. Le lieu de travail de Leonard, Sheldon, Howard, Rajesh et Leslie.
La boutique est tenue par Stuart. Wikimedia Commons Wikiquote. Menu de navigation Espaces de noms Article Discussion. In , NASA launched COBE, which made two major advances: in , high-precision spectrum measurements showed that the CMB frequency spectrum is an almost perfect blackbody with no deviations at a level of 1 part in 10 4 , and measured a residual temperature of 2.
Mather and George Smoot were awarded the Nobel Prize in Physics for their leadership in these results. During the following decade, CMB anisotropies were further investigated by a large number of ground-based and balloon experiments.
In —, several experiments, most notably BOOMERanG , found the shape of the universe to be spatially almost flat by measuring the typical angular size the size on the sky of the anisotropies.
In early , the first results of the Wilkinson Microwave Anisotropy Probe were released, yielding what were at the time the most accurate values for some of the cosmological parameters.
The results disproved several specific cosmic inflation models, but are consistent with the inflation theory in general.
Other ground and balloon based cosmic microwave background experiments are ongoing. Using the Big Bang model, it is possible to calculate the concentration of helium-4 , helium-3 , deuterium, and lithium-7 in the universe as ratios to the amount of ordinary hydrogen.
This value can be calculated independently from the detailed structure of CMB fluctuations. The ratios predicted by mass, not by number are about 0.
The measured abundances all agree at least roughly with those predicted from a single value of the baryon-to-photon ratio. Detailed observations of the morphology and distribution of galaxies and quasars are in agreement with the current state of the Big Bang theory.
A combination of observations and theory suggest that the first quasars and galaxies formed about a billion years after the Big Bang, and since then, larger structures have been forming, such as galaxy clusters and superclusters.
Populations of stars have been aging and evolving, so that distant galaxies which are observed as they were in the early universe appear very different from nearby galaxies observed in a more recent state.
Moreover, galaxies that formed relatively recently, appear markedly different from galaxies formed at similar distances but shortly after the Big Bang.
These observations are strong arguments against the steady-state model. Observations of star formation, galaxy and quasar distributions and larger structures, agree well with Big Bang simulations of the formation of structure in the universe, and are helping to complete details of the theory.
In , astronomers found what they believe to be pristine clouds of primordial gas by analyzing absorption lines in the spectra of distant quasars.
Before this discovery, all other astronomical objects have been observed to contain heavy elements that are formed in stars.
These two clouds of gas contain no elements heavier than hydrogen and deuterium. The age of the universe as estimated from the Hubble expansion and the CMB is now in good agreement with other estimates using the ages of the oldest stars, both as measured by applying the theory of stellar evolution to globular clusters and through radiometric dating of individual Population II stars.
The prediction that the CMB temperature was higher in the past has been experimentally supported by observations of very low temperature absorption lines in gas clouds at high redshift.
Observations have found this to be roughly true, but this effect depends on cluster properties that do change with cosmic time, making precise measurements difficult.
Future gravitational-wave observatories might be able to detect primordial gravitational waves , relics of the early universe, up to less than a second after the Big Bang.
As with any theory, a number of mysteries and problems have arisen as a result of the development of the Big Bang theory. Some of these mysteries and problems have been resolved while others are still outstanding.
Proposed solutions to some of the problems in the Big Bang model have revealed new mysteries of their own. For example, the horizon problem , the magnetic monopole problem , and the flatness problem are most commonly resolved with inflationary theory, but the details of the inflationary universe are still left unresolved and many, including some founders of the theory, say it has been disproven.
It is not yet understood why the universe has more matter than antimatter. However, observations suggest that the universe, including its most distant parts, is made almost entirely of matter.
A process called baryogenesis was hypothesized to account for the asymmetry. For baryogenesis to occur, the Sakharov conditions must be satisfied.
These require that baryon number is not conserved, that C-symmetry and CP-symmetry are violated and that the universe depart from thermodynamic equilibrium.
Measurements of the redshift— magnitude relation for type Ia supernovae indicate that the expansion of the universe has been accelerating since the universe was about half its present age.
To explain this acceleration, general relativity requires that much of the energy in the universe consists of a component with large negative pressure, dubbed "dark energy".
Dark energy, though speculative, solves numerous problems. Dark energy also helps to explain two geometrical measures of the overall curvature of the universe, one using the frequency of gravitational lenses , and the other using the characteristic pattern of the large-scale structure as a cosmic ruler.
Negative pressure is believed to be a property of vacuum energy , but the exact nature and existence of dark energy remains one of the great mysteries of the Big Bang.
Therefore, matter made up a larger fraction of the total energy of the universe in the past than it does today, but its fractional contribution will fall in the far future as dark energy becomes even more dominant.
The dark energy component of the universe has been explained by theorists using a variety of competing theories including Einstein's cosmological constant but also extending to more exotic forms of quintessence or other modified gravity schemes.
During the s and the s, various observations showed that there is not sufficient visible matter in the universe to account for the apparent strength of gravitational forces within and between galaxies.
In addition, the assumption that the universe is mostly normal matter led to predictions that were strongly inconsistent with observations.
In particular, the universe today is far more lumpy and contains far less deuterium than can be accounted for without dark matter.
While dark matter has always been controversial, it is inferred by various observations: the anisotropies in the CMB, galaxy cluster velocity dispersions, large-scale structure distributions, gravitational lensing studies, and X-ray measurements of galaxy clusters.
Indirect evidence for dark matter comes from its gravitational influence on other matter, as no dark matter particles have been observed in laboratories.
Many particle physics candidates for dark matter have been proposed, and several projects to detect them directly are underway.
Additionally, there are outstanding problems associated with the currently favored cold dark matter model which include the dwarf galaxy problem  and the cuspy halo problem.
The horizon problem results from the premise that information cannot travel faster than light. In a universe of finite age this sets a limit—the particle horizon—on the separation of any two regions of space that are in causal contact.
There would then be no mechanism to cause wider regions to have the same temperature. A resolution to this apparent inconsistency is offered by inflationary theory in which a homogeneous and isotropic scalar energy field dominates the universe at some very early period before baryogenesis.
During inflation, the universe undergoes exponential expansion, and the particle horizon expands much more rapidly than previously assumed, so that regions presently on opposite sides of the observable universe are well inside each other's particle horizon.
The observed isotropy of the CMB then follows from the fact that this larger region was in causal contact before the beginning of inflation. Heisenberg's uncertainty principle predicts that during the inflationary phase there would be quantum thermal fluctuations , which would be magnified to a cosmic scale.
These fluctuations served as the seeds for all the current structures in the universe. If inflation occurred, exponential expansion would push large regions of space well beyond our observable horizon.
A related issue to the classic horizon problem arises because in most standard cosmological inflation models, inflation ceases well before electroweak symmetry breaking occurs, so inflation should not be able to prevent large-scale discontinuities in the electroweak vacuum since distant parts of the observable universe were causally separate when the electroweak epoch ended.
The magnetic monopole objection was raised in the late s. Grand Unified theories GUTs predicted topological defects in space that would manifest as magnetic monopoles.
These objects would be produced efficiently in the hot early universe, resulting in a density much higher than is consistent with observations, given that no monopoles have been found.
This problem is resolved by cosmic inflation, which removes all point defects from the observable universe, in the same way that it drives the geometry to flatness.
The flatness problem also known as the oldness problem is an observational problem associated with a FLRW. Curvature is negative if its density is less than the critical density; positive if greater; and zero at the critical density, in which case space is said to be flat.
Observations indicate the universe is consistent with being flat. The problem is that any small departure from the critical density grows with time, and yet the universe today remains very close to flat.
For instance, even at the relatively late age of a few minutes the time of nucleosynthesis , the density of the universe must have been within one part in 10 14 of its critical value, or it would not exist as it does today.
Before observations of dark energy, cosmologists considered two scenarios for the future of the universe. If the mass density of the universe were greater than the critical density, then the universe would reach a maximum size and then begin to collapse.
It would become denser and hotter again, ending with a state similar to that in which it started—a Big Crunch. Alternatively, if the density in the universe were equal to or below the critical density, the expansion would slow down but never stop.
Star formation would cease with the consumption of interstellar gas in each galaxy; stars would burn out, leaving white dwarfs , neutron stars , and black holes.
Collisions between these would result in mass accumulating into larger and larger black holes. The average temperature of the universe would very gradually asymptotically approach absolute zero —a Big Freeze.
Eventually, black holes would evaporate by emitting Hawking radiation. The entropy of the universe would increase to the point where no organized form of energy could be extracted from it, a scenario known as heat death.
Modern observations of accelerating expansion imply that more and more of the currently visible universe will pass beyond our event horizon and out of contact with us.
The eventual result is not known. This theory suggests that only gravitationally bound systems, such as galaxies, will remain together, and they too will be subject to heat death as the universe expands and cools.
Other explanations of dark energy, called phantom energy theories, suggest that ultimately galaxy clusters, stars, planets, atoms, nuclei, and matter itself will be torn apart by the ever-increasing expansion in a so-called Big Rip.
One of the common misconceptions about the Big Bang model is that it fully explains the origin of the universe. However, the Big Bang model does not describe how energy, time, and space were caused, but rather it describes the emergence of the present universe from an ultra-dense and high-temperature initial state.
When the size of the universe at Big Bang is described, it refers to the size of the observable universe, and not the entire universe.
Hubble's law predicts that galaxies that are beyond Hubble distance recede faster than the speed of light. However, special relativity does not apply beyond motion through space.
Hubble's law describes velocity that results from expansion of space, rather than through space. Astronomers often refer to the cosmological redshift as a Doppler shift which can lead to a misconception.
Accurate derivation of the cosmological redshift requires the use of general relativity, and while a treatment using simpler Doppler effect arguments gives nearly identical results for nearby galaxies, interpreting the redshift of more distant galaxies as due to the simplest Doppler redshift treatments can cause confusion.
The Big Bang explains the evolution of the universe from a density and temperature that is well beyond humanity's capability to replicate, so extrapolations to most extreme conditions and earliest times are necessarily more speculative.
How the initial state of the universe originated is still an open question, but the Big Bang model does constrain some of its characteristics.
For example, specific laws of nature most likely came to existence in a random way, but as inflation models show, some combinations of these are far more probable.
The Big Bang theory, built upon the equations of classical general relativity, indicates a singularity at the origin of cosmic time, and such an infinite energy density may be a physical impossibility.
However, the physical theories of general relativity and quantum mechanics as currently realized are not applicable before the Planck epoch, and correcting this will require the development of a correct treatment of quantum gravity.
While it is not known what could have preceded the hot dense state of the early universe or how and why it originated, or even whether such questions are sensible, speculation abounds as the subject of "cosmogony".
Proposals in the last two categories see the Big Bang as an event in either a much larger and older universe or in a multiverse.
As a description of the origin of the universe, the Big Bang has significant bearing on religion and philosophy.
From Wikipedia, the free encyclopedia. Cosmological model. This article is about the scientific theory. For other uses, see Big Bang disambiguation and Big Bang Theory disambiguation.
Early universe. BOOMERanG Cosmic Background Explorer COBE Dark Energy Survey Euclid Illustris project Vera C. Rubin Observatory Planck space observatory Sloan Digital Sky Survey SDSS 2dF Galaxy Redshift Survey "2dF" UniverseMachine Wilkinson Microwave Anisotropy Probe WMAP.
Subject history. Discovery of cosmic microwave background radiation. Religious interpretations of the Big Bang theory. Main article: Cosmological horizon.
Different people use the term "Big Bang" in different ways. Most generally, it illustrates the arc of the observable universe as it thinned out and cooled down from an initially dense, hot state.
This description boils down to the idea that the cosmos is expanding, a broad principle analogous to survival of the fittest in biology that few would consider debatable.
More specifically, the Big Bang can also refer to the birth of the observable universe itself — the moment something changed, kickstarting the events that led to today.
Cosmologists have argued for decades about the details of that fraction of a second, and the discussion continues today. For most of human history, observers of the sky assumed it eternal and unchanging.
Edwin Hubble dealt this story an experimental blow in the s when his observations showed both that galaxies outside the Milky Way existed, and that their light appeared stretched — a sign that they were rushing away from Earth.Dr. Leonard Leakey Hofstadter und Dr. Sheldon Cooper sind geniale Physiker, arbeiten im selben Institut und teilen sich eine Wohnung. Im Umgang mit der sozialen Umwelt hingegen hat vor allem Sheldon seine Schwierigkeiten. Zu ihrem Freundeskreis. The Big Bang Theory (englisch für „Die Urknalltheorie“) ist eine US-amerikanische Sitcom von Chuck Lorre und Bill Prady, die vom September bis zum. Episodenguide: alle Staffeln, alle Folgen. Während in "The Big Bang Theory" Staffel 9 bis 10 einige Nerds sesshaft geworden sind, bleibt es bei Raj und Stewart in. The Big Bang Theory. |12 |12 Staffeln|Sitcoms. Nerd-Alarm! Ihre neue Nachbarin, eine angehende Schauspielerin, fordert die Sozialkompetenzen der.