![]() ![]() The make new window or make new tab commands fail with errors and I have tried several combinations.Īfter some web searching, it looks like this has been broken for a long time. Unfortunately, this particular piece of the AppleScript dictionary is broken. > new ~/Desktop # opens a new terminal window at ~/DesktopĪfter my last success using AppleScript, I thought this would be the best solution again. What I want, is a new window that defaults to current working directory or a custom directory that I can provide with an argument: > new # opens a new terminal window at the current working directory #ITERM2 OPEN TAB IN SAME DIRECTORY WINDOWS#New windows created with the keyboard shortcut or from the menu will always have the home directory ~ as the current working directory. But in some cases, it can be more useful to use a shell command. Then it follows Maxwells statistics.Of course, you can easily create a new Terminal window from the ‘Shell’ menu or by using the ⌘N (or ⌘T) keyboard shortcut. When so, the physics can condense these Bosons, following Bose statistics. Now we can put some statistical constraints on it. ![]() $\lambda$ is no ordinary wavelength, it is the deBroglie thermal wavelength. $\Gamma$ is the standard particle creation number. $dT\dot)$ comes about from both pressure and density and while I was concerned with a Friedmann equation with density, these parameters can be rewritten to accommodate easily. I begin with, (and later will show how this equation was arrived at) How does entropy enter the cosmic evolution equation? How might a temperature term enter the Friedmann equation? And what happens if there is no temperature, can we still construct a logarithmic equation? We need to look at some equations I derived on order to get to the nitty gritty stuff. This first part shows the first equation if its kind that explains how statistics are obtained to describe a cold big bang. Hence, the standard big bang we believe had a small entropy, but began in a got phase by contrast. The hot big bang violates thermodynamical law stating that only cold systems have low entropy. The cold big bang was originally brought to light to solve a problem found in the hot big bang, a problem that most scientists just gloss over. The logarithmic temperature was required so that it had a rapid heating phase which led to the standard big bang model. The first included a temperature correction, and the main reason was to use it to describe a pre big bang phase, known as cold big bang models. The derivation is quite solid and is a beautiful argument in its own right. It was kind of strange because I derived three logarithmic Friedmann equations only weeks before the news hype. MaskedMagician Asks: The Recent Hype of Logarithmic Cosmic Evolution Equations I know that to answer this, we would have to postulate first a few characteristics of the portal but i'm curious. How would that portal behave? If we throw an object from earth to this planet, through the portal, would its trajectory or speed be normal? Or would it have weird effect like being slowed down (as it would if it was approching the black hole from space, in the normal way, i guess?) ? What other weird behaviour would occur, if any ? There, when one hour passes, 7 years passes on earth, because the ocean planet is near a black hole, and due to the dilation of time (general relativity), time is desynchronized with the earth.īut i was wondering, imagine if we were able to create a portal from earth to this planet, but aside from this special detail, the rest of physics rules as we know them remains. I was rewatching the scene of Interstellar (spoilers!) I've a weird question which is more a sci-fi question than a physics question, but i need people who know physics to have any hope of interesting answers Daemonsoadfan Asks: How would portals behave with dilation of time if they existed? ![]()
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