Hot off the press is a review of an interesting 3D printer: the SeeMeCNC Orion, a delta 3D Printer.
There’s a lot to like about the SeeMeCNC Orion Delta: It offers a large print volume for the cost and size, and it usually produces fine-quality prints, especially with smooth, clean curves. This will make the Orion especially appealing to people who want to produce tall objects like statues or vases. The Orion struggled with fine details, though, and objects with very sharp edges didn’t come out as well. This would not be a printer for engineering models or small, detailed prints. For those objects, you would do better the similarly priced LulzBot Mini.
How do you make the perfect scrambled eggs? For my CNet column Appliance Science, the results of my experiments with sous vide scrambles….
The joy of sous vide is that you can produce this sort of differentiation. While a chef might train for years to learn how to cook like this without a precise temperature controller at his or her side, a sous vide setup puts it just a few button presses away . And it does it with the consistency that no chef can match: it doesn’t have bad days or get distracted.
Just published on Toms Guide, my review of the rather nice Lulzbot Mini 3D printer.
There is a lot to like about the LulzBot Mini. It has an attractive design and provides high-quality prints at good speed. It is flexible, handling a wide range of materials that are unknown factors with other 3D printers, and the software is mature and easy to use. The Mini costs significantly more than competitors like the Cube 3 and da Vinci AiO. However, the LulzBot Mini printer is better than both rivals’ offerings. Its extra cost is justified by its greater flexibility of printing materials and the higher quality of its prints.
My latest Appliance Science column at CNet looks at the physics of espresso coffee.
That’s because the process of making espresso is complicated and finicky: get something wrong and you’ve ruined the delicate balance.
Espresso is, to coin a phrase, what happens when engineers make coffee.
I wrote about sous vide cooking for my latest Appliance Science column at CNet.
My latest Appliance Science column at CNET explains how induction cooktops work, heating your dinner without direct heat. Plus a special section on frog levitation.
Induction cooktops are also more efficient than other types of cooking methods. Because the heat is generated inside the base of the pan, they use less electricity than conventional electric cooktops, and can heat things quicker. They are also easier to clean, because the flat glass or ceramic surface has no gaps or grills to collect spilled food, and the food doesn’t get burned onto the surface. If you spill something, one quick swipe with a damp cloth will clean it up.
The next appliance to come under the Appliance Science microscope is the microwave oven, which has a history connected to radar, melted chocolate and exploding eggs.
Ever since humans first dropped a chunk of mammoth meat onto a fire and liked the result, we have been looking for new ways to cook things. One of the more recent developments in this race to taste is the microwave oven, which uses microwave radiation to heat and cook your food.
Because it uses less energy and is much quicker than a gas or electric ovens, the microwave has found a spot in most homes. In fact, it is thought that that by the beginning of the 21st century, over 90 percent of homes in the US had a microwave oven. That’s pretty good progress for a device that was invented by accident 55 years ago.
In my Appliance Science column for CNet, I look into the fascinating physics of LED lights. It’s all about electrons, quantum physics, energy levels and water flowing downhill.
And, like a waterfall, interesting things happen at this point where the flow is controlled. Whereas a waterfall makes noise, electrons flowing across the pn-junction of an LED release light. As the electrons flow from the n to the p layer, the energy level of the electrons falls, dropping from the higher energy level of the p-type layer to the lower one of the n-type. This energy is released as a photon, which we see as light.
Mechanical keyboards are beloved of serious typists everywhere (including me) for their click-clacky goodness. So what’s the difference between a cheap one and an expensive one? I found out for my latest Wired column…
Sometimes a family runabout is all you need, though, and the Rosewill is far superior to laptop keyboards or the cheap rubber dome keyboards that come with desktop computers. So, it’s not a bad investment for those who write a lot or play games…. If, like me, you spend every day clacking through thousands of words, I’d recommend spending the extra money on the Das Keyboard Ultimate S. The cost is much higher, but it pays off in typing speed, comfort, and the satisfaction you get from using a tool with superior build quality.
I am very pleased to announce that I am now writing a column for CNet, called Appliance Science. Illustrated by the awesome Colin McDonald, this column will look at the science behind an appliance, revelaing the mysteries of… Appliance Science! First up in this twice-monthly column is the refrigerator.
Welcome to Appliance Science, a new column all about the science behind your home appliances. You may not realize it, but your appliances are hotbeds of scientific progress, made possible by moon-shot class engineering and technology that would make your ancestors cry with joy. In this column, we’ll take you through the science and technology behind the appliances in your home…