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Four foods that become toxic when stored in the refrigerator

Although the refrigerator keeps food fresh, some foods should not be stored in the refrigerator because they can become toxic. Doctor Dimple Yangda, who is a specialist in gut health, stated on Instagram that these foods are garlic, onion, ginger and rice and revealed the reasons why this is so. Garlic Garlic can become soft if stored in the refrigerator. "Never store garlic in the refrigerator because it starts to mold very quickly, and mold on garlic is actually linked to cancer," Yangda said, advising to store garlic in a dry, dark place. "Garlic has a low acidity, which makes it prone to the deposition of the bacterium Clostridium botulinum, which is one of the culprits of botulism," she warned. Onion Onion is a crop that is resistant to low temperatures. The expert explains: "When you put onions in the fridge, the starch starts to turn into sugar and mold starts to form." Many people make this mistake. Cut the head of the onion, use half

Advantages and disadvantages of solar power energy

The technology that is utilized to collect and convert solar energy is known as solar energy. In 2011, less than 0.1 percent of the world's energy consumption was met by the technology. Many people are familiar with 'photovoltaic cells,' often known as solar panels, which are used in items like spacecraft, roofs, and handheld calculators. Semiconductor materials, similar to those used in computer chips, are used to make the cells. Electrons are dislodged from their atoms when sunlight strikes the cells. The cell produces electricity when the electrons move through it. Solar-thermal power plants use a variety of methods to concentrate the sun's energy as a heat source on a much bigger scale. The heat is then utilized to boil water, which powers a steam turbine to produce electricity in a manner similar to that of coal and nuclear power plants and serve thousands of people with electricity. In one method, sunlight is focused on an oil pipe that passes through the center o

The force of the wind

 In order to produce electricity, wind turbines are mostly used in wind power or wind energy. In comparison to burning fossil fuels, wind energy is a well-liked, environmentally friendly, renewable energy source. Wind energy has historically been used to power sails, windmills, and windpumps, but today it is primarily employed to produce electricity. Numerous separate wind turbines connected to the electrical power transmission network make up wind farms. New onshore (on-land) wind farms are less expensive to build than new coal or gas facilities, but fossil fuel subsidies are impeding the growth of wind power. Compared to certain other power plants, onshore wind farms have a more noticeable visual influence on the terrain. Little onshore wind farms can add a small amount of power to the grid or supply remote off-grid areas with electricity. Offshore wind farms have less of an aesthetic impact and produce more energy per installed capacity with less variability. Offshore wind generatio

Environmental and efficiency aspects of heating methods

The effectiveness of any framework relies upon the meaning of the limits of the framework. For an electrical energy client the productivity of electric space warming is 100 percent since all bought energy is changed over completely to warm. Be that as it may, in the event that a power plant providing power is incorporated, the general proficiency drops radically. For instance, a petroleum derivative power station just conveys 3-5 units of electrical energy for each 10 units of fuel energy delivered. Despite the fact that the electric radiator is 100 percent proficient, how much fuel expected to deliver the intensity is more than if the fuel were singed in a heater or kettle at the structure being warmed. On the off chance that a similar fuel could be utilized for space warming by a buyer, it would be more productive in general to consume the fuel toward the end client's structure. Then again, supplanting electric warming with petroleum derivative consuming radiators, isn't requ

Space heating

Building interiors are warmed by space heating. In settings like laboratories where air handling is challenging, space heaters are helpful. There are various ways to heat a place with electricity. Here are a few ways to heat an area with electricity: ·          Infrared radiant heaters Heating elements that attain a high temperature are used in electric infrared radiant heating. The element is typically housed in a glass bulb-shaped container with a reflector to divert the energy output away from the heater's body. Infrared radiation is emitted by the element and travels through air or space until it collides with an absorbing surface, when it is partially transformed into heat and partially reflected. Instead of warming the air, this heat immediately warms the people and things in the room. When unheated air is present, this type of heater is especially beneficial. They are also perfect for garages and basements that need spot heating. They are a great option for task-speci

Electric heating

Electric heating uses relatively inexpensive tools to directly convert electrical energy into heat energy with a conversion efficiency of roughly 100%. Applications that are frequently used include industrial processes, cooking, water heating, and space heating. An electrical appliance that transforms an electric current into heat is called an electric heater. Every electric heater contains a heating element that is an electrical resistor and operates on the principle of Joule heating. When an electric current flows through a resistor, the electrical energy is transformed into heat energy. The active element in most contemporary electric heaters is nichrome wire; the heating element shown on the right is nichrome wire supported by ceramic insulators. As an alternative, a heat pump, which uses electricity exclusively to transfer the thermal energy from the environment, primarily air, can achieve a heating efficiency of about 300%, or 3.0 Coefficient of Performance. The refrigeratio

Electricity

The collection of physical phenomena known as electricity are those that are connected to the presence and movement of matter that possesses an electric charge. Maxwell's equations describe the phenomenon of electromagnetism, which includes both magnetism and electricity as components. Lightning, static electricity, electric heating, electric discharges, and many other common phenomena have an electrical component. An electric field is created by the existence of an electric charge, which may be positive or negative. Electric current, which results from the movement of electric charges, also creates a magnetic field. A force will act on a charge when it is positioned in an area with an electric field that is not zero. According to Coulomb's law, this force has a certain magnitude. The electric field would be exerting force on the charge if it were to move. Thus, we can refer to the electric potential at a particular place in space, which is commonly measured in volts and eq