Yes. If you mark the odd numbers in Pascal's Triangle, it would form Sierpinski's Gasket.
That would be a scalene triangle.
That is the definition of a triangle. If it did not have three sides it would not be a triangle. If it did not have three angles, it would not be a triangle.
It depends on what kind of triangle. A scalene triangle (no equal sides or angles) would not have any lines of symmetry. An isosceles triangle would have 1 line of symmetry, and an equilateral triangle would have 3 lines of symmetry.
That would be an equilateral triangle.
Yes. If you mark the odd numbers in Pascal's Triangle, it would form Sierpinski's Gasket.
Steel expands when heated because the heat causes the atoms within the steel to vibrate more, increasing the spacing between them. This expansion can be measured in terms of thermal expansion coefficients.
Brass and iron have different coefficients of thermal expansion, so when exposed to a change in temperature, they would expand by different amounts. This difference in expansion causes the bimetallic strip to bend due to the unequal expansion of the two metals.
Pascal's triangle was originally devised as a means of determining binomial coefficients: when calculating (x+y)^n, Pascal's triangle is a very convenient way to find the coefficients of the result. Go to the xth row of Pascal's triangle, and use the numbers as coefficients for each term. E.g., (x+y)^4 would be found on the 4th row, the coefficients 1-4-6-4-1. Thus (x+y)^4 = 1(x^4) + 4(x^3)y + 6(xy)^2 + 4x(y^3) + 1(y^4). Pascal later discovered the triangle's use for determining probabilities as well, and mathematicians since have found myriad other uses for it.
We would need to have the list of correlation coefficients to respond to this question.
In order for a spring to "expand" with applied voltage, there would need to be a current, and its resulting power, creating heat. This effect is most noticeable when the "spring" is a bimetallic strip, having different coefficients of expansion, causing the spring to "bend".
To convert pascals to megapascals, divide the pressure value in pascals by 1,000,000. For instance, to convert 5,000,000 pascals to megapascals, you would divide 5,000,000 by 1,000,000 to get 5 megapascals.
To determine the unknown reaction of triangle H using Hess's law, you would need to consider a series of known reactions that add up to the desired reaction. By manipulating and combining these known reactions, you can derive the overall reaction for triangle H. This involves balancing the equations and adjusting their coefficients to ensure the conservation of mass and energy.
In a balanced chemical equation, the coefficients represent the relative ratio of moles of reactants and products, not the actual number of molecules. Changing the coefficients would alter the stoichiometry of the reaction, affecting the amounts of substances consumed and produced. Thus, individual coefficients by themselves do not hold specific physical significance.
The balanced equation for CuMnO4 + K3PO4 would be: CuMnO4 + 2K3PO4 → Cu3(PO4)2 + 3KMnO4 So, the set of coefficients that would balance this equation is 1:2:1:3.
The coefficients in a rational expression would be rational numbers.
a right triangle