![]() Now you can terraform planets and simulate atmospheres more realistically than ever. 8Īlongside the existing materials, silicate, iron, hydrogen, and water to Universe Sandbox. The Gravity Simulation Upgrade and Terraforming were major milestones from our 2023 Roadmap post. Finally simulating the lakes of liquid methane on Titan.Added 8 new materials (for a total of 12), including oxygen and carbon dioxide, to realistically simulate, construct, and terraform planets and atmospheres.Terraforming | Update 34 | December 2023.Overhauled our gravity simulation to increase accuracy, stability, and performance to run simulations even faster.Gravity Simulation Upgrade | Update 33 | August 2023.Combined our two previous collision models for more realistic shockwaves, heating, and overall destruction.Grand Collision Unification | Update 32.3 | June 2023.Added a spherical cow and many simulations including the green comet C/2022 E3 (ZTF) passing by Earth.A Comet, an Asteroid, and a Planet Walk into the Solar System | Update 32.2 | March 2023.A spherical cow refers to a joke that when physicists want to make a problem easier to handle, they sometimes simplify it so much it’s no longer realistic. We added one new human-scale object last year – a spherical cow. If you've found this educational demo helpful, please consider supporting us on Ko-fi.We’ve got a lot planned for 2024, including a massive graphics upgrade, collision and cratering improvements, getting Universe Sandbox on mobile devices (iOS & Android), and more! We’ll go into more exciting details in our upcoming 2024 Roadmap post, but first, let’s reflect on some achievements from 2023. All logic icons designed by Marco Olgio from the Noun Project. ![]() Other scenarios, the XOR behaves the same as the OR. However, with an XOR, (exclusive OR), if both inputs are 1, the output is 0. With an OR gate, if both inputs were 1, the output was 1. Just as the NAND gate could be thought of as an AND followed by a NOT, a NOR can be thought of as an OR also followed by a NOT. If neither input is 1, the output will be 0. ![]() If at least one of the inputs is 1, then the output will be 1. The OR gate has two inputs and one output. The symbol for NAND is the same as that for AND except for the addition of a small circle on the right side. The name NAND comes from joining NOT and AND. Its output is 0 when the two inputs are 1, and for all other cases, its output is 1. You can think of it as an AND gate followed immediately by a NOT gate. The NAND gate behaves in the opposite fashion to an AND gate. The output is 1 if both inputs are 1, and for all other cases the output is 0. The AND gate has two inputs and one output. Tables listing all logical possibilities like this are known as truth tables. The two possibilities are written out in the table below. The NOT gate is also known as an inverter because the output is the exact opposite of the input. Additionally, you can rename an output by double clicking on its label. If you need more space, click on the "Full screen mode" button which will increase the size of the workspace to fill the size of the window. ![]() Input (solid circle) and drag away and release, or alternatively you can right click anywhere on the connection. To remove connections, you can click on the To delete nodes, click the small cross in the top right corner of its enclosing box. You can drag it to your desired position. The new node will be placed in the top left hand corner, and To add a new logic gate, or an additional input or output block, choose from the dropdown menu and then click "add node". This is our way of differentiating between 0 (off) and 1 (on). Click the on/off switch and see what happens. Our "on/off" switch and "output block" aren't actually logic gates,īut they are required because they give us the 1s and 0s needed to see how the gates behave. On/off switch, and release the mouse when you are over the solid circle on the left side of the "output" block.įor each of the logic gates, outputs are hollow circles, and inputs are solid circles. To connect them, click and drag from the hollow circle on the right side of the You are presented with a simple on/off input and an output. The demo above allows you to create sequences of logic gates to see how they behave when connected to various inputs and outputs.
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