Adiabatic
It is used in evaluating almost all mathematical expressions. The only exceptions are ones which involve only addition and subtraction, or only multiplication and division, or are so trivial that the are expressed in BODMAS order.
The two operations - addition and multiplication - are different and so their identities are different.
BODMAS/BIDMAS is the order of operation for all mathematical calculations including ones that involve algebra. You start with brackets and work down: B - Brackets I/O - Indices/Index/Order e.g. x3 D - Division M - Multiplication A - Addition S - Subtraction
Not necessarily. Both methods involve work, so neither really is a shortcut for each other.
ballay
Adiabatic ~ from a Greek word meaning "unable to cross" is used to refer to changes in temperature where no heat is transferred.
subtraction
Yes, physical changes involve a small change in energy.
It is used in evaluating almost all mathematical expressions. The only exceptions are ones which involve only addition and subtraction, or only multiplication and division, or are so trivial that the are expressed in BODMAS order.
No, its chemical.nuclear reactions involve changes in only the configuration of the nucleuschemical reactions involve changes in only the configuration of valence electrons
Any advanced math (basically, anything beyond addition, subtraction, multiplication, and division) will be used mainly in engineering jobs. This is any career that has "engineering" in its name, and a few others that don't, such as economy and architecture.
Yes
Division
Adding numbers led to wanting to "undo" addition, and thus the definition of subtraction. Subtraction is needed to help solve problems that involve addition, and addition is needed to help solve problems that involve subtraction. Multiplying numbers led to wanting to "undo" multiplication, and thus the definition of division. Division is needed to help solve problems that involve multiplication, and multiplication is needed to help solve problems that involve division. Raising numbers to powers led to wanting to "undo" exponentiation, and thus the definition of roots. Roots are needed to help solve problems that contain a constant exponent, and exponents are needed to solve problems that involve a constant root. Therefore, cube roots started as a way of solving problems that involved cubed quantities - such as volumes. A typical problem could be something like: if I wish to design a cube that will hold exactly 1,000 cubic inches of water, what must the length of each inside edge be? Since all three dimensions of a cube have the same length (L), this problem can be expressed mathematically by: L^3 = 1,000 and the only way to solve for L mathematically is to "undo" the third power (cube) by taking the cube root of both sides: L = 10
Short answer, no. Body temperature is controlled in the body's thermoregulatory center, the hypothalamus. This center detects changes in temperature delivered from temperature receptors along the CNS. Most responses involve muscles; also connected to the CNS, and so blood isnt involved
Electromagnetic waves, like light, do involve changes in the electric and the magnetic field. These changes propagate at the speed of light - as a wave.Electromagnetic waves, like light, do involve changes in the electric and the magnetic field. These changes propagate at the speed of light - as a wave.Electromagnetic waves, like light, do involve changes in the electric and the magnetic field. These changes propagate at the speed of light - as a wave.Electromagnetic waves, like light, do involve changes in the electric and the magnetic field. These changes propagate at the speed of light - as a wave.
no