From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #9528 Reply-To: ammf@fruvous.com Sender: owner-ammf-digest@smoe.org Errors-To: owner-ammf-digest@smoe.org Precedence: bulk alt.music.moxy-fruvous digest Tuesday, August 16 2022 Volume 14 : Number 9528 Today's Subjects: ----------------- Shopper, You can qualify to get a $90 Hobby Lobby gift card! ["Hobby Lobb] Fix your dental problems overnight ["Extraordinary results" Subject: Shopper, You can qualify to get a $90 Hobby Lobby gift card! Shopper, You can qualify to get a $90 Hobby Lobby gift card! http://hoblobby.sa.com/XiNHzWivYVw2bRKvkpRYGX2o2u2OsdE0rsG21ddhmH-WN2kRYA http://hoblobby.sa.com/oGCEmZCtiB9Awvx7T1ENdF-2PPgqbgzrxaXMitIVI9efSZPZKA f a laser beam is swept quickly across a distant object, the spot of light can move faster than c, although the initial movement of the spot is delayed because of the time it takes light to get to the distant object at the speed c. However, the only physical entities that are moving are the laser and its emitted light, which travels at the speed c from the laser to the various positions of the spot. Similarly, a shadow projected onto a distant object can be made to move faster than c, after a delay in time. In neither case does any matter, energy, or information travel faster than light. The rate of change in the distance between two objects in a frame of reference with respect to which both are moving (their closing speed) may have a value in excess of c. However, this does not represent the speed of any single object as measured in a single inertial frame. Certain quantum effects appear to be transmitted instantaneously and therefore faster than c, as in the EPR paradox. An example involves the quantum states of two particles that can be entangled. Until either of the particles is observed, they exist in a superposition of two quantum states. If the particles are separated and one particle's quantum state is observed, the other particle's quantum state is determined instantaneously. However, it is impossible to control which quantum state the first particle will take on when it is observed, so information cannot be transmitted in this manner. Another quantum effect that predicts the occurrence of faster-than-light speeds is called the Hartman effect: under certain conditions the time needed for a virtual particle to tunnel through a barrier is constant, re ------------------------------ Date: Tue, 16 Aug 2022 06:49:18 -0400 From: "Extraordinary results" Subject: Fix your dental problems overnight Fix your dental problems overnight http://teethgood.sa.com/-IeScflDZGDWzt1axcMpU-YdWe2hZH-tcQhzLv9Lj9Ywlx3rSw http://teethgood.sa.com/reLqKRoWPOB1EhRqYgEAvjV_12D9NzHci5qE25xyLEUOJGrX2w rtain quantum effects appear to be transmitted instantaneously and therefore faster than c, as in the EPR paradox. An example involves the quantum states of two particles that can be entangled. Until either of the particles is observed, they exist in a superposition of two quantum states. If the particles are separated and one particle's quantum state is observed, the other particle's quantum state is determined instantaneously. However, it is impossible to control which quantum state the first particle will take on when it is observed, so information cannot be transmitted in this manner. Another quantum effect that predicts the occurrence of faster-than-light speeds is called the Hartman effect: under certain conditions the time needed for a virtual particle to tunnel through a barrier is constant, regardless of the thickness of the barrier. This could result in a virtual particle crossing a large gap faster-than-light. However, no information can be sent using this effect. So-called superluminal motion is seen in certain astronomical objects, such as the relativistic jets of radio galaxies and quasars. However, these jets are not moving at speeds in excess of the speed of light: the apparent superluminal motion is a projection effect caused by objects moving near the speed of light and approaching Earth at a small angle to the line of sight: since the light which was emitted when the jet was farther away took longer to reach the Earth, the time between two successive observations corresponds to a longer time between the instants at which the light rays were emitted. A 2011 experiment where neutrinos were observed to travel faster than light turned out to be due to experimental error. In models of the expanding universe, the farther galaxies are from each other, the faster they drift apart. This receding is not due to motion through space, but rather to the expansion of space itself. For example, galaxies far away from ------------------------------ Date: Tue, 16 Aug 2022 05:53:14 -0400 From: "Huusk chefs knife" Subject: Beautiful and unique Huusk Knives are essential for every chef. Beautiful and unique Huusk Knives are essential for every chef. http://weblifedailystore.za.com/c9LG-CXu317MAo0KiXIEqV_rZF7PZtqcKP7WWcjFb3CLlO_iwA http://weblifedailystore.za.com/kF-JIuD2ARMhO7tPXM7u9vY_3YoI7ZqvI5tfpF2UnF7B4Cijrg ccording to special relativity, the energy of an object with rest mass m and speed v is given by ?mc2, where ? is the Lorentz factor defined above. When v is zero, ? is equal to one, giving rise to the famous E = mc2 formula for massbenergy equivalence. The ? factor approaches infinity as v approaches c, and it would take an infinite amount of energy to accelerate an object with mass to the speed of light. The speed of light is the upper limit for the speeds of objects with positive rest mass, and individual photons cannot travel faster than the speed of light. This is experimentally established in many tests of relativistic energy and momentum. Three pairs of coordinate axes are depicted with the same origin A; in the green frame, the x axis is horizontal and the ct axis is vertical; in the red frame, the x? axis is slightly skewed upwards, and the ct? axis slightly skewed rightwards, relative to the green axes; in the blue frame, the x?? axis is somewhat skewed downwards, and the ct?? axis somewhat skewed leftwards, relative to the green axes. A point B on the green x axis, to the left of A, has zero ct, positive ct?, and negative ct??. Event A precedes B in the red frame, is simultaneous with B in the green frame, and follows B in the blue frame. More generally, it is impossible for signals or energy to travel faster than c. One argument for this follows from the counter-intuitive implication of special relativity known as the relativity of simultaneity. If the spatial distance between two events A and B is greater than the time interval between them multiplied by c then there are frames of reference in which A precedes B, others in which B precedes A, and others in which they are simultaneous. As a result, if something were travelling faster than c relative to an inertial frame of reference, it would be travelling backwards in time relative to another frame, and causality ------------------------------ Date: Tue, 16 Aug 2022 06:09:43 -0400 From: "Insanely Fast Wi-Fi" Subject: Never lose signal again with portable Wi-Fi Never lose signal again with portable Wi-Fi http://routerwifi.sa.com/VqXwdh6tx20J4_ngfWYQOXEcRS0vczoHxyJ6qa1ro1EwdKBubA http://routerwifi.sa.com/p-VDQBRGMNPLJfcohawrpNPzWCt0C3fo0WXJRnVZNBDaqzU he speed c. In 1905, Albert Einstein postulated that the speed of light c with respect to any inertial frame is a constant and is independent of the motion of the light source. He explored the consequences of that postulate by deriving the theory of relativity and in doing so showed that the parameter c had relevance outside of the context of light and electromagnetism. Massless particles and field perturbations such as gravitational waves also travel at the speed c in vacuum. Such particles and waves travel at c regardless of the motion of the source or the inertial reference frame of the observer. Particles with nonzero rest mass can be accelerated to approach c, but can never reach it, regardless of the frame of reference in which their speed is measured. In the special and general theories of relativity, c interrelates space and time, and also appears in the famous equation of massbenergy equivalence, E = mc2. In some cases objects or waves may appear to travel faster than light (e.g. phase velocities of waves, the appearance of certain high-speed astronomical objects, and particular quantum effects). The expansion of the universe is understood to exceed the speed of light beyond a certain boundary. The speed at which light propagates through transparent materials, such as glass or air, is less than c; similarly, the speed of electromagnetic waves in wire cables is slower than c. The ratio between c and the speed v at which light travels in a material is called the refractive index n of the material (n = For example, for visible light, the refractive index of glass is typically around 1.5, meaning that light in glass tra ------------------------------ Date: Tue, 16 Aug 2022 04:53:15 -0400 From: "Sam's Club Shopper Feedback" Subject: BONUS: $100 SAM'S CLUB Gift Card Opportunity BONUS: $100 SAM'S CLUB Gift Card Opportunity http://bestpollclub.sa.com/OJOCXxdN7AOu6Z7ct0zgtreycg3vcX8_KH4Kffrttsk6UaE10Q http://bestpollclub.sa.com/5T6OUCLWs1Q9vxoBCeoHE8FMI3l4JUvTEhdHyTyKFP8uFZV07Q ll forms of electromagnetic radiation, including visible light, travel at the speed of light. For many practical purposes, light and other electromagnetic waves will appear to propagate instantaneously, but for long distances and very sensitive measurements, their finite speed has noticeable effects. Starlight viewed on Earth left the stars many years ago, allowing humans to study the history of the universe by viewing distant objects. When communicating with distant space probes, it can take minutes to hours for signals to travel from Earth to the spacecraft and vice versa. In computing, the speed of light fixes the ultimate minimum communication delay between computers, to computer memory, and within a CPU. The speed of light can be used in time of flight measurements to measure large distances to extremely high precision. Ole RC8mer first demonstrated in 1676 that light travels at a finite speed (non-instantaneously) by studying the apparent motion of Jupiter's moon Io. Progressively more accurate measurements of its speed came over the following centuries. In a paper published in 1865, James Clerk Maxwell proposed that light was an electromagnetic wave, and therefore travelled at the speed c. In 1905, Albert Einstein postulated that the speed of light c with respect to any inertial frame is a constant and is independent of the motion of the light source. He explored the consequences of that postulate by deriving the theory of relativity and in doing so showed that the parameter c had relevance outside of the context of light and electromagnetism. Massless particles and field perturbations such as gravitational waves also travel at the speed c in vacuum. Such particles and waves travel at c regardless of the m ------------------------------ Date: Sat, 13 Aug 2022 18:18:04 -0400 From: "Amazon Shopper Gift Card Chance" Subject: BONUS: $100 AMAZON Gift Card Opportunity BONUS: $100 AMAZON Gift Card Opportunity http://docks.za.com/eKx3DXnWeg1JNORuRMlqPDWbpR280Kg0P9fYETqsvDrqNDqG0g http://docks.za.com/UTgdSx_PdC0zhvUsCofQ8cHdzh3YIKbtW7UNFE6EYsvZo36wPA annen Says documents the events leading up to Shannen Doherty's wedding to Kurt Iswarienko. It was Doherty's third wedding; she previously married actor Ashley Hamilton and poker player Rick Salomon, these marriages ended in 1994 and 2003, respectively. Doherty previously worked on reality television as a host for Scare Tactics and Breaking Up with Shannen Doherty and as a contestant on the tenth season of Dancing with the Stars. Developed under the working title The Shannen Doherty Project, Shannen Says was first announced by WE TV on July 20, 2011. According to the network, the show was intended to portray Doherty from a more intimate perspective. WE TV senior vice president John Miller identified the series as part of the network's strategy to "present stories that showcase the wild ride of modern-day life from a woman's perspective". Prior to Shannen Says, WE TV was already associated with wedding-themed shows, such as Bridezillas and My Fair Wedding with David Tutera. Variety's Jill Goldsmith cited it, alongside Braxton Family Values, Joan & Melissa: Joan Knows Best?, and Mary Mary, to discuss WE TV's focus on celebrity-based reality shows. Shannen Says was initially going to be developed by Doherty's production company, No Apologies Productions, to air on another television network. The series was instead picked up by WE TV after Doherty rejected the previous network for making the material too sensational. Miller approved the show's pitch because he believed Doherty was "unfiltered, honest and vulnerable" and said: "I would watch her go to a supermarket ... She's insanely compelling." Doherty referred to Shannen Says as her agreement with Iswarienko to "chronicle this time in our lives and let future brides and future grooms know that not just you goes through the stress". Likening the show to a wedding video, she described it as a documentary rather than a reality show, and saw herself as an ------------------------------ End of alt.music.moxy-fruvous digest V14 #9528 **********************************************