Well, isn't that a happy little question! There are many equations that can make the number 37, like 74 divided by 2, 40 minus 3, or even the square root of 1369. Remember, math is just like painting - there are many ways to create something beautiful!
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Well, honey, there's a few ways to skin a cat, as they say. One equation that makes 37 is 74 divided by 2. Another one is 40 minus 3. And if you're feeling fancy, you can do 3 squared plus 28. Math is like a recipe, you just gotta mix and match until you get the right flavor.
Oh, dude, you're hitting me with the math questions now? Alright, so 37 can be made with the equation 20 + 17. And like, if we wanna get fancy, you can also do 40 - 3. But honestly, who's keeping track of all these equations for one number? Just enjoy the randomness, man.
There are infinitely many.
Start with 1 + 1 + 1 + 1 + ... 37 times
then, 2 + 1 + 1 + 1 + ... with 36 1s
and 3 + 1 + 1 + 1 + ... etc
then you can use fractions, and Irrational Numbers.
Next, try, 37 * 1
or 37 * 1 * 1
or 37 * 1 * 1 * 1 and go on for ever.
or 37*2*.5
and 37 * 2 * 2 * .5 *.5
etc.
And then there are equations involving fractions, subtractions, powers and trigonometric functions - eg 37*sin(pi/2) or 74*sin(pi/6)
I hope that, by now, you have got the point that the question needs tightening up if you want a more meaningful answer.
Simultaneous equation is nothing: it cannot exist.A system of simultaneous equations is a set of 2 or more equations with a number of variables. A solution to the system is a set of values for the variables such that when the variables are replaced by these values, each one of the equations is true.The equations may be linear or of any mathematical form. There may by none, one or more - including infinitely many - solutions to a system of simultaneous equations.
To solve a system of equations, you need equations (number phrases with equal signs).
It is called solving by elimination.
The letters in most algebraic equations mostly represent the value of the number or often at times the gradient.
Systems of equations can have just about any number of solutions: zero, one, two, etc., or even infinitely many solutions.