An equation with a degree of 2 is called a quadratic equation. At least one term in the equation will have a variable raised to the second power, e.g. x²
If the highest degree of an equation is 3, then the equation must have 3 solutions. Solutions can be: 1) 3 real solutions 2) one real and two imaginary solutions.
No. Fahrenheit to Celsius is figured out by this equation: C=(F-32) x 5/9 AND Celsius to Fahrenheit uses this equation: F=(9/5 x C) + 32 No, 1 degree Fahrenheit = -17.22 degrees Celsius
Sn(4+) and 2 (SO4)2-
This is not an equation at all. An example of a correct (and balanced) equation would be: 2H2 + O2 --> 2 H2O
The equation is:2 CO2 ===========> 2 CO + O2
The quadratic formula can be used to solve an equation only if the highest degree in the equation is 2.
2.
An equation of the second degree, meaning it contains at least one term that is squared.
A non-linear equation is any equation which includes variables with a degree other than one. Therefore, any equation involving x2, x3, x4, .... would be non-linear. For example: y= 3x+2 is linear, because x and y are both degree 1 (no exponent) y= 2x2 is non-linear, because x is degree 2.
2
A degree of a differential equation is the highest power of highest order of a differential term of the equation. For example, 5(d^4 x/dx^4) - (dx/dx)^2 =7 Here 5(d^4x/dx^2) has the highest order and so the degree will be it's power which is 1.
Yes, since y = x - 2 has the degree of 1 [or the highest exponent of the equation], x - 2 is the linear equation.
a linear equation
A quadratic. For example, x^2 + 3x - 7xy - 12y - 25 = 0
If the highest degree of an equation is 3, then the equation must have 3 solutions. Solutions can be: 1) 3 real solutions 2) one real and two imaginary solutions.
the name is squared equation
The highest power in the equation.