A tokamak is the magnetic container that traps and holds the plasma in this type of physics.
Plasmology is the scientific study of plasma, which is the fourth state of matter where gas becomes ionized. It involves understanding the properties, behavior, and applications of plasma in various fields such as physics, chemistry, and engineering. Plasma is commonly found in stars, lightning, and fluorescent lights.
The Hauksbee machine, invented by Francis Hauksbee in the early 18th century, was one of the first devices to demonstrate electrostatic principles. It played a significant role in the development of early physics experiments and the understanding of electricity and magnetism. The machine generated static electricity through friction, leading to important discoveries in the field of physics.
Thermal plasma: ionized gas at very high temperatures, commonly used in industrial applications like welding and cutting. Nonthermal plasma: ionized gas at lower temperatures, often used in environmental applications like air purification. Astrophysical plasma: ionized gas found in stars, interstellar space, and galaxies, playing a key role in the universe's dynamics. Magnetized plasma: ionized gas influenced by magnetic fields, important in controlled fusion research and space physics. Laser-induced plasma: ionized gas created by a laser pulse, used in various fields including spectroscopy and material processing.
Physics can be related to social studies through the study of energy sources and their impact on societies, understanding the principles behind technologies that shape modern societies, and examining the role of physics in environmental issues that have social implications. Additionally, physics concepts like force, motion, and energy play a role in understanding historical events such as the Industrial Revolution and the development of transportation technologies.
Physics plays a crucial role in science by providing the foundational principles and laws that help explain the workings of the natural world. In technology, physics is used to design and develop new innovations and technologies, such as electronics, materials science, and transportation. In society, physics helps shape everyday life through advancements in healthcare, communication, energy, and environmental sustainability.
Plasmology is the scientific study of plasma, which is the fourth state of matter where gas becomes ionized. It involves understanding the properties, behavior, and applications of plasma in various fields such as physics, chemistry, and engineering. Plasma is commonly found in stars, lightning, and fluorescent lights.
The Hauksbee machine, invented by Francis Hauksbee in the early 18th century, was one of the first devices to demonstrate electrostatic principles. It played a significant role in the development of early physics experiments and the understanding of electricity and magnetism. The machine generated static electricity through friction, leading to important discoveries in the field of physics.
The rOle of physics is very vast and there are many things that physics helps ...
The plasma membrane of a cell plays a role in diffusion.
help break down the food
They allow movement of salts and sugars through the plasma membrane
The word has different meaning in the two cases. Plasma in the atmosphere with regard to electricity is a highly ionized state of matter. All or most of the electrons are stripped from their atoms. Plasma in the blood is the liquid part as opposed to any suspended parts.
it smells like chicken
The liquid matrix of blood is called plasma. It is a yellowish fluid that makes up about 55% of blood volume and contains water, electrolytes, proteins, nutrients, hormones, waste products, and gases. Plasma plays a crucial role in transporting these substances throughout the body.
The concentration of oxygen in plasma is around 75-100 millimeters of mercury (mmHg). This dissolved oxygen in plasma plays a critical role in transporting oxygen from the lungs to tissues throughout the body.
it involves physics, which depend on mass and weight.
Thermal plasma: ionized gas at very high temperatures, commonly used in industrial applications like welding and cutting. Nonthermal plasma: ionized gas at lower temperatures, often used in environmental applications like air purification. Astrophysical plasma: ionized gas found in stars, interstellar space, and galaxies, playing a key role in the universe's dynamics. Magnetized plasma: ionized gas influenced by magnetic fields, important in controlled fusion research and space physics. Laser-induced plasma: ionized gas created by a laser pulse, used in various fields including spectroscopy and material processing.