width =100 mts length= 100+12= 112 mts Area= 112*100=11200 m^2
The length of a pendulum affects its period of oscillation. The longer the pendulum, the slower it swings and the longer its period. This relationship is described by the equation T = 2π√(L/g), where T is the period, L is the length, and g is the acceleration due to gravity.
2_x_ + 2(x – 4) = 45
The longer side is usually called "length".
Let the length of the post be ( x ) yards. According to the problem, the post is 6 yards longer than half of its length, which gives us the equation ( x = \frac{x}{2} + 6 ). Solving this equation, we first multiply through by 2 to eliminate the fraction: ( 2x = x + 12 ). Subtracting ( x ) from both sides results in ( x = 12 ). Thus, the length of the post is 12 yards.
Yes, the length of a pendulum affects its swing. The oscillation will be longer with a longer length and shorter with a shorter length.
if you are trying to find the area then: width=x length=y y=3+x xy=area 3+x*x=area
Let the length be x+4 and the width be x:- Form a quadratic equation: (x+4)*x = 45 => x^2 +4x -45 = 0 Solving the equation: x has a positive value of 5 Therefore length is 5+4 = 9 feet and width = 5 feet Check: 9 times 5 = 45 square feet
Ultraviolet has the longer wave length Infrared has the lower wave length
There really isn't one..you can make any equation longer.
The longer the length of the pendulum, the longer the time taken for the pendulum to complete 1 oscillation.
Conventionally, length is the bigger of the two.
The length of a rectangle is typically considered to be the longer of the two sides, also referred to as the longer dimension. It is measured along the longer side of the rectangle from one end to the other.