FIG 1 to obtain permanent magnet and a solenoid magnetic field lines distribution B = Mo Pm 1 Weber / m 2 = 1 Newton·m = 10 4 Gauss ( G s ) 1 ampere meter 2 H = B μ 1A = 10 -2 A =4 π× 10 -3 Oe m Cm
Road Machine
Road machine is a kind of machinery used to build highways, urban roads and airport pavements.
Road machine category: Surface Construction Machinery, basic construction machinery, etc.
Road machine features: integration and automation.
Road machine contains: Road Roller , Concrete Screed Machine, Road Cutting Machine, road milling machine, light tower, Road Marking Machine, road polishing machine ,road blower, etc.
Road roller: it is also as known as compactor, is a road-building equipment. Road rollers belong to the category of road machine in construction machinery and are widely used for compaction operation of large-scale engineering projects such as high-grade highways, railways, airport runways, dams, stadiums, etc.,
If you have any questions, please contact with us directly. Road machine is produced by HW group with high quality. Welcome to visit our factory. For inquiry, please send mail directly to us.
Road Machine Road Machine,Plastic Road Barrier,Blow Molding Machine,Sweeper Machine Shandong Hengwang Group Co., Ltd , https://www.hwmac.com
(3) Magnetic field strength Magnetic field strength is a physical quantity used to measure the strength of a magnetic field. The definition of the magnetic field strength is: in any magnetic medium (a substance that can strengthen or weaken a magnetic field due to magnetization in an external magnetic field is called a magnetic medium), the ratio of the magnetic induction B at a point in the magnetic field to the magnetic permeability at the same point. , the magnetic field strength at this point, denoted by the symbol H, ie
Both the magnetic field strength and the magnetic induction are physical quantities indicating the direction and strength of the magnetic field. There is a connection between them (B=μH) and a difference. Since the magnetization of the magnetic medium in the magnetic field has an influence on the magnetic field, in the case of a uniform magnetic medium, the magnetic field generated by the magnetization of the medium is represented by the magnetic induction B. The magnetic field caused by pure current or moving charge is expressed by the magnetic field strength H. 
The concept of magnetic field and the representation of the strength of the magnetic field
The so-called magnetic field refers to the space where magnetic force exists. The magnetic field is one of the basic forms of the existence of matter, which exists in the space around the magnet, the space around the moving charge, and the space around the current. The most common phenomenon in a magnetic field is that two magnetic objects attract or repel each other, so the interaction between the magnets is through a magnetic field. The magnetic field also exerts a force on the energized conductor, indicating that the magnetic field has a force property. When the energized conductor moves within the magnetic field, the magnetic field force will work on the energized conductor, indicating that the magnetic field has energy. These manifestations illustrate the physical properties of the magnetic field.
There are several ways to express the strength of a magnetic field.
(1) Magnetic force lines Magnetic lines are curves that visually represent the strength, direction, and distribution of a magnetic field, as shown in Figure 1.
The degree of density of the magnetic lines of force indicates the strength of the magnetic field. The direction of the magnetic lines of force is defined as follows: starting from the N pole outside the magnet, entering the S pole through the space, and forming a closed curve from the S pole to the N pole inside the magnet. The direction of the magnetic field line is the direction of the magnetic field, and the tangential direction of a point on the magnetic line is the direction of the magnetic field strength of the magnetic field at that point.
(2) Magnetic induction The magnetic field has a powerful effect on the moving charge or current-carrying conductor. The physical quantity that describes the nature of a magnetic field by the force of a magnetic field on a current-carrying wire is called magnetic induction.
The magnitude of the magnetic induction is defined as the maximum magnetic moment experienced by the test coil of the unit magnetic moment at a point in the magnetic field, ie
Â
Where M o — the maximum magnetic moment experienced by the test coil in the magnetic field;
P m — The magnetic moment of the coil itself, equal to the product of its current intensity and the area it encloses, ie P m =IS. [next]
Magnetic induction In the "utility unit system", when the coil with a magnetic moment of 1 ampere-meter 2 is located at a certain point in the magnetic field, if it receives a maximum magnetic moment of 1 Newton-meter, the magnetic induction at that point is 1 Weber / m 2 , called Tesla (T), referred to as "special". In numerical value
The unit of the magnetic field strength is determined as follows: In the above formula, the unit of the magnetic induction B is Weber/m 2 (Wb/m 2 ), and the unit of the magnetic permeability μ is Weber/(A·m) [Wb/(A·m) )], the unit of magnetic field strength is ampere/meter 2 (A/m). The unit of A/m is very small. In practical applications, the common units are ampere/cm (A/cm) and Oe (Oe). The conversion relationship between them is:
In the case of the same magnetic field, if different magnetic media are placed, there is a different magnetic induction B, but the magnetic field strength does not change. For example, in a magnetic field, a piece of iron with a magnetic permeability μ that is much larger than the magnetic permeability μ 0 of air is placed. Most of the magnetic lines of force pass through the iron block intensively, and this change can be detected with iron filings. This shows that the distribution of the magnetic induction intensity has changed, but the magnetic field strength has not changed.