Problem 2: beehive honey are able to chew can spit out Hello, this beeswax is not edible Oh, if you eat more beeswax will lead to diarrhea,. Advice: this situation you can use the hive juicer to press, so you can take out the honey, but do not need to eat the beeswax Oh
Problem three: the beehive eat up how to chew like chewing gum it Strong ah, huh, the beehive inside a lot of collagen, and the beehive contains more than tenants of the natural plant fibers, so you chew up more toughness, chewing not rotten. I hope you help
Question 4: A fine honey source hive honey why chew not rotten You might as well buy crazy honey, this is good, how much did you buy?
Question 5: I bought honey with a hive, the beeswax inside the chewing does not suck, ask anyone who knows The new hive taste is better, chewing to the end of the beeswax like chewing gum, chewing for a while to spit it out on the good; the old hive of nutrients, chewing to the end of the slightly acidic, the texture of the new hive is not so chewy, chewing for a while the same spit it out can.
Question 6: What is a layer of impurities on wild honey that can't be chewed? It is the bees used to cover the honey. It is the roof tile. As chewing wax is him. It can clean the mouth, and a small amount can be eaten.
Question 7: Why is the hive more and more acidic chewing No honey in the hive spleen, you chew the hive spleen and the old hive spleen, normal. The best way to treat pharyngitis and rhinitis is to eat some royal jelly.
Question 8: Why is the hive not rotten after the storm because the honeycomb construction of bees is very delicate, applicable and save materials. The hive consists of countless holes of the same size, all in the shape of a square hexagon, each surrounded by other holes, with only a wax wall separating two holes. Surprisingly, the bottom of the room-holes is neither flat nor round, but pointed. This bottom is made up of three identical rhombuses. The angles of the rhombuses have been measured and both obtuse angles are 109° while both acute angles are 70°. It is remarkable that all the honeycombs of the bees in the world are built according to this uniform angle and pattern.
This honeycomb structure is very strong and lightweight, and is also good for sound and heat insulation. As a result, today's space shuttles, satellites, and spaceships use honeycomb structures in their interiors in large numbers, and the shells of satellites are almost exclusively honeycomb. Therefore, these spacecraft are collectively called "cellular spacecraft". And these "cellular spacecraft" are very material-saving.
It is estimated that worker bees secrete 1 kilogram of beeswax, need to consume 16 kilograms of nectar; and collection of 1 kilogram of nectar, the bees must fly 320,000 kilometers to be able to complete; the equivalent of the distance around the Earth 8 times. Therefore, beeswax is precious to bees.
Scientists have found that the hexagonal shape of the building structure has the highest degree of tightness, requires the least amount of material, and allows for the most space to be used. Therefore, it can accommodate up to tens of thousands of bees. The hexagonal shape of the hive structure demonstrates an amazing mathematical brilliance that has impressed many architects.
The bee, in its God-given wisdom, chose the hexagon with the most corners. By using equal amounts of raw materials, the hive has the greatest volume and can therefore hold a greater amount of honey. It's a marvelous and very practical way to make the most economical space architecture. The hive built by bees is truly a marvelous natural structure. As early as the beginning of the 18th century, the French astronomer Maraldi (documentation) measured many hives by hand and found that the holes and the bottom of each hive were in the shape of a square hexagonal column.
If the entire bottom of the hive is divided into three rhombic sections, each acute angle and each obtuse angle are equal (about 72° for acute and 109° for obtuse). More surprisingly, the bees in order to prevent the outflow of stored honey, each hive building, are from the center to the sides of the horizontal expansion; each hive from the bottom of the inner chamber to the opening, are presented 13 ° angle of elevation.
Applications
The fuselage elements of the US B-2 stealth bomber are mostly sandwich structures, i.e., two high-strength plates are glued together with a very low-density honeycomb layer, which increases the strength of the fuselage and reduces its mass. The nozzles of the engine are placed deep inside the wing in the shape of a honeycomb, so that the radar waves can only come in and not go out. Graphite in pencils is made up of carbon atoms arranged in hexagonal honeycomb-shaped sheets. If you recombine these carbon atoms, you can become a diamond.
Honeycomb spacecraft
The structure of the honeycomb gave great inspiration to spacecraft designers, who used a honeycomb structure when they developed it: first, the honeycomb was made of metal, and then it was sandwiched by two metal plates to make a honeycomb structure. This honeycomb structure is very strong and lightweight, but also beneficial to sound and heat insulation. Therefore, the current space shuttle, artificial satellites, spacecraft in the interior of a large number of honeycomb structure, the satellite shell is also almost all honeycomb structure. Therefore, these spacecraft are also collectively referred to as cellular spacecraft.
Honeycomb sandwich structure
The core layer of this structure is made of metal, fiberglass, or composite materials made of a
Honeycomb structure
A series of hexagonal, tetragonal and other shapes of the aperture lattice in the upper and lower surfaces of the core layer, and then glued (or brazed) on the thinner surface plate. Early use of lightweight balsa wood sandwich is not moisture-resistant, poor corrosion resistance, not fire-resistant, people turned their attention to the metal honeycomb sandwich. 1945 trial made the earliest honeycomb sandwich structure. Honeycomb structure than other sandwich structure has higher strength and stiffness, compared with riveted structure, structural efficiency can be increased by 15% to 30%. Sandwich honeycomb hole grid size, height and its composition of the lattice thickness of the sheet, etc. to determine the surface plate local buckling, hole grid wall plate buckling of the critical stress and the thermal insulation properties of the sandwich structure. These dimensions are generally selected to ensure that they can withstand a certain amount of buckling load in the future with a certain degree of thermal insulation performance. The stress analysis of the honeycomb structure is the same as that of the general sandwich structure. In the aerospace industry, honeycomb structures are often used to make a variety of wall panels for airfoils, nacelles, hatch covers, floors, engine shrouds, tail nozzles, muffler panels, heat shielding panels, satellite body housings, rigid tai ...... >>
Question 9: Why the honeycomb after the storm will not rot Because the bottom of the honeycomb room hole is composed of three identical rhombus, this honeycomb structure is very high strength and light weight, but also beneficial to the sound and heat insulation.
The bottom of the honeycomb hole is neither flat nor round, but pointed. This bottom is made up of three identical rhombuses. The angles of the rhombuses have been measured and both obtuse angles are 109° while both acute angles are 70°. All the honeycombs of the bees in the world are built according to this uniform angle and pattern.
This honeycomb structure is very strong and lightweight, and is also good for sound and heat insulation.
As a result, today's space shuttles, satellites, and spaceships use honeycomb structures in large numbers on the inside, and the outer shells of satellites are almost entirely honeycomb.
Question 10: Should I swallow or spit out the honeycomb chewing like wax at the end? It can be swallowed, and the hive is also a Chinese medicine, and it is not easy to get more of it.