yes
To determine if segments of lengths 8, 7, and 15 can form a triangle, we can use the triangle inequality theorem, which states that the sum of the lengths of any two sides must be greater than the length of the third side. Here, 8 + 7 = 15, which is not greater than 15. Therefore, segments of lengths 8, 7, and 15 cannot form a triangle.
15/7 is in its simplest form.
Yes. What you should watch out for is that, to form a triangle, none of the segments should be longer (or as long as) the other two segments combined. Just check whether the longest segment is longer than the sum of the other two - if it is, then you can't form a triangle.
7/15 is in its simplest form.
Since the numerator of the fraction is prime, the proper fraction 7/15 is already written in its simplest form.
Those segments can form a triangle because the two smallest sides, 7 and 8, add together to make 15, which is greater than the longest side, 12.
Yes they could.
15/7 is in its simplest form.
Yes.
7/15 in decimal form = 0.4666...7/15:= 7 ÷ 15= 0.4666... in decimal
Yes. What you should watch out for is that, to form a triangle, none of the segments should be longer (or as long as) the other two segments combined. Just check whether the longest segment is longer than the sum of the other two - if it is, then you can't form a triangle.
7/15 is in its simplest form.
7/15 is in its simplest form.
This process is known as chromosomal crossover or genetic recombination. During meiosis, homologous chromosomes can exchange segments of DNA between each other, resulting in genetic diversity among offspring. This exchange involves the physical swapping of chromosome segments between pair 7 and 15.
Since the numerator of the fraction is prime, the proper fraction 7/15 is already written in its simplest form.
fraction: 7/15 decimal:0.4666666666666667
7/15 is in its simplest form.