You wind up with 6 times the original area.
If only the length is changed and all other dimensions left unchanged, the volume will also triple.
The previous answer (below) is seriously flawed. The area of a rectangle is L*W, NOT 2L + 2W, which is its perimeter! So, if you triple [just] the length, L must be replaced by 3L W remains unaffected and the new area is 3L*W or 3LW which is 3 times the original area. ----------------------- The area of a rectangle is 2Length + 2Width (1) If you triple the length your length then this happens... 2(3*Length) + 2Width (2) Lets just assign numbers to the length and width for each equations Length=5 Width=3 2(5) + 2(3) = 16 (1) 2(15) + 2(3)= 36 (2) Lets do a different set of numbers to compare Length=7 Width=2 2(7) + 2(2) = 18 (1) 2(21) + 2(2) = 46 (2) Obviously these ratios are different. So it depends on what your initial length is before you triple it. But in the first assigned numbers the area went up around 2.25 times greater. In the second assigned numbers the area increased by a factor of 2.55
Area rectangle = Area of Square (s - 2) x 3s = s2 3s2 - 6s =s2 2s2 - 6s =0 s2 - 3s =0 s(s-3) =0 S= 0, S= 3
To find the new area, you have to multiply the original area by the square of the scale change. For example, you have a rectangle with adjacent sides of 3 and 4. Another rectangle has the same dimensions but with triple the scale. The original rectangle's area is 12. Multiply that by 9, which is the square of the new scale, and you get an area of 108. That matches up with the area of the new rectangle, which has adjacent sides of 12 and 9.
the pathagorean triple is when 3 whole numbers satisfy the pathagorean therom.
It becomes a bigger rectangle - possibly a square.
If only the length is changed and all other dimensions left unchanged, the volume will also triple.
The previous answer (below) is seriously flawed. The area of a rectangle is L*W, NOT 2L + 2W, which is its perimeter! So, if you triple [just] the length, L must be replaced by 3L W remains unaffected and the new area is 3L*W or 3LW which is 3 times the original area. ----------------------- The area of a rectangle is 2Length + 2Width (1) If you triple the length your length then this happens... 2(3*Length) + 2Width (2) Lets just assign numbers to the length and width for each equations Length=5 Width=3 2(5) + 2(3) = 16 (1) 2(15) + 2(3)= 36 (2) Lets do a different set of numbers to compare Length=7 Width=2 2(7) + 2(2) = 18 (1) 2(21) + 2(2) = 46 (2) Obviously these ratios are different. So it depends on what your initial length is before you triple it. But in the first assigned numbers the area went up around 2.25 times greater. In the second assigned numbers the area increased by a factor of 2.55
x^2=3x(x-2)
A rectangle must have four right angles and parallel sides. Therefore, you can divide the rectangle into two equal right angle triangles along the diagonal. As the perimeter is the sum of all of the sides of the triangles that aren't a hypotenuse, each of one of the triangles' legs length would add up to to half the perimeter of the rectangle i.e. 7. The length of the hypotenuse is 5. With basic trigonometry you should recognise that this is a pythagorean triple, or in otherwords the hypotenuse is 5 and the lengths of the 'legs' are 3 and 4 Now that you now know the lengths of the legs of the right angle triangles, and the legs correspond with the sides of the rectangles, you can now calculate the area: A = 4*3 = 12 m2
Area rectangle = Area of Square (s - 2) x 3s = s2 3s2 - 6s =s2 2s2 - 6s =0 s2 - 3s =0 s(s-3) =0 S= 0, S= 3
The area is increased by a factor of 9.
Unlock ford triple car stereo
three times
To find the new area, you have to multiply the original area by the square of the scale change. For example, you have a rectangle with adjacent sides of 3 and 4. Another rectangle has the same dimensions but with triple the scale. The original rectangle's area is 12. Multiply that by 9, which is the square of the new scale, and you get an area of 108. That matches up with the area of the new rectangle, which has adjacent sides of 12 and 9.
He didn't change to HHH it is not hard to understand all Triple H stands for are the three H's Hunter Hurst Helmsley.
the bend length is triple time divided and four time added with your lucky number whatever it is and subtract with your mobile number AND then multiply with zero and finally we get the total length of bend