F = (mass) x (acceleration) = (55) x (15) = 825 newtons.
E = mC^2 is Energy = Mass X (Speed of Light,squared)
example x5 + 6x4 + 9x3 To factor this expression, see if each "piece" of the expression has a variable in common. In this case, each piece has an X in common. Now we factor out the smallest exponent of X that we see in the expression. x3(x2+6x +9) You could factor the x squared +6x +9 also, into (x + 3)(x+3)
The equation of an ellipse is ((x-x0)^2)/b^2)+((y-y0)^2/a^2)=1 hope that helps! : ) ____________________________________________________ that equation is for an ellipse, true, but that's not what is needed here. In this case you can just use Kepler's 3rd law which is: p^2=a^3 Which means the period (in years) squared is equal to the radius (or semi major axis) in AU cubed.
If an object moves in a circle, the centripetal acceleration can be calculated as speed squared divided by the radius. The centripetal force, of course, is calculated with Newton's Second Law: force = mass x acceleration. Therefore, the centripetal force will be equal to mass x speed2 / radius.
2/ mass squared x height squared
Pi x R squared. = area of a circle.
1/3 x 3.14x r2(squared) x h( height
Circle = pi x radius squared Rectangle= l x w
the area of the circle is Pi X Radius squared
First, get the product of the summation of x squared and y squared and then find its square root. Divide the summation of x and y by the square root to get Pearson's r.
The area of a coil is calculated by pi r squared x length.
No. Cos squared x is not the same as cos x squared. Cos squared x means cos (x) times cos (x) Cos x squared means cos (x squared)
3x squared - x squared = 2x squared
You can calculate a value if you assign a value to variable "x".
pi x R squared times height where R = radius
Just calculate (-2) x (-2). Squaring a number means multiplying it by itself.