Moving a frac tank when it is full is generally not advisable due to safety and operational risks. Full tanks can be heavy and difficult to maneuver, increasing the risk of spills or damage during transport. Additionally, many regulations require that tanks be emptied before moving to ensure safe handling. Always consult with local regulations and guidelines, and consider the specific circumstances before attempting to move a full frac tank.
To determine how many ninths are in a fifth, you can divide ( \frac{1}{5} ) by ( \frac{1}{9} ). This calculation results in ( \frac{1}{5} \times \frac{9}{1} = \frac{9}{5} ). Therefore, there are ( \frac{9}{5} ) or 1.8 ninths in a fifth.
Three and three-fourths can be expressed as a mixed number, which is equal to (3 + \frac{3}{4}). To find out how many eights are in this value, we convert it to an improper fraction: ( \frac{15}{4} ). Since one eighth is ( \frac{1}{8} ), we can find how many eights are in ( \frac{15}{4} ) by dividing: ( \frac{15}{4} \div \frac{1}{8} = \frac{15}{4} \times \frac{8}{1} = \frac{120}{4} = 30 ). Therefore, there are 30 eights in three and three-fourths.
To find out how many sixths are in (5 \frac{1}{2}), first convert (5 \frac{1}{2}) to an improper fraction, which is (\frac{11}{2}). Next, since one sixth is (\frac{1}{6}), divide (\frac{11}{2}) by (\frac{1}{6}) by multiplying by the reciprocal: (\frac{11}{2} \times 6 = \frac{66}{2} = 33). Therefore, there are 33 sixths in (5 \frac{1}{2}).
To find out how many times ( \frac{3}{4} ) is in 72, you can divide 72 by ( \frac{3}{4} ). This is the same as multiplying 72 by the reciprocal of ( \frac{3}{4} ), which is ( \frac{4}{3} ). So, ( 72 \times \frac{4}{3} = 96 ). Therefore, there are 96 instances of ( \frac{3}{4} ) in 72.
600 tanks
To determine how many fourths are in one and one eighth, first convert one and one eighth to an improper fraction. One and one eighth is equal to ( \frac{9}{8} ). Since one fourth is ( \frac{1}{4} ), you can find how many fourths are in ( \frac{9}{8} ) by dividing ( \frac{9}{8} ) by ( \frac{1}{4} ), which is the same as multiplying ( \frac{9}{8} ) by the reciprocal of ( \frac{1}{4} ) (which is 4). This calculation gives you ( \frac{9}{8} \times 4 = \frac{36}{8} = 4.5 ). Therefore, there are 4.5 fourths in one and one eighth.
To find out how many one-thirds equal three-fourths, you can set up the equation ( \frac{1}{3} \times x = \frac{3}{4} ). Solving for ( x ) gives ( x = \frac{3}{4} \div \frac{1}{3} = \frac{3}{4} \times \frac{3}{1} = \frac{9}{4} ). Therefore, nine-thirds equal three-fourths.
As long as sewage tanks do not leak, they make no difference to the environment. Many homes across north America are not on municipal sewer and therefore have to have sewage tanks to separate waste before the black water goes to the septic field. In good shape these do not hurt the environment.
To find out how many eighths are in (7 \frac{5}{8}), first convert the mixed number to an improper fraction. This gives you (7 \frac{5}{8} = \frac{60}{8} + \frac{5}{8} = \frac{65}{8}). Since one whole equals 8 eighths, multiply the improper fraction by 8: (\frac{65}{8} \times 8 = 65). Therefore, there are 65 eighths in (7 \frac{5}{8}).
The Germans has 2,928 tanks. Whereas the Soviets had 5,128 tanks.
To determine how many one halves are in two fifths, we can divide two fifths by one half. This is done by multiplying two fifths by the reciprocal of one half: ( \frac{2}{5} \div \frac{1}{2} = \frac{2}{5} \times \frac{2}{1} = \frac{4}{5} ). Therefore, there are ( \frac{4}{5} ) one halves in two fifths.