It depends on what x is and how the tangents are related to it.
Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182
That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.
That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.
The following is the answer:
( Rate / 8 ) x Hours of Work = Under Time Pay
Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182Either use trial and error, or the quadratic formula, solving the following for x: x(x+1)=182
distance= speed x time
You use the formula: F = ma, or force = mass x acceleration. Solving for mass: m = F/a.You use the formula: F = ma, or force = mass x acceleration. Solving for mass: m = F/a.You use the formula: F = ma, or force = mass x acceleration. Solving for mass: m = F/a.You use the formula: F = ma, or force = mass x acceleration. Solving for mass: m = F/a.
That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.That depends on the speed. If you know the speed, use the formula distance = speed x time. Solving for time: time = distance / speed.
That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.
The following is the answer:
W= F x D or Work equals Force times Displacement (Distance)
( Rate / 8 ) x Hours of Work = Under Time Pay
density = mass / volume Solving for mass: mass = density x volume Solving for volume: volume = mass / density
It helps to convert everything to cosines, using the Pythagorean formula, i.e., sin2x + cos2x = 1.sin2x + cos x = 0(1 - cos2x) + cos x = 0-cos2x + cos x + 1 = 0cos2x - cos x - 1 = 0Now you can apply the quadratic formula, solving for cos x, and using a = 1, b = -1, c = -1.It helps to convert everything to cosines, using the Pythagorean formula, i.e., sin2x + cos2x = 1.sin2x + cos x = 0(1 - cos2x) + cos x = 0-cos2x + cos x + 1 = 0cos2x - cos x - 1 = 0Now you can apply the quadratic formula, solving for cos x, and using a = 1, b = -1, c = -1.It helps to convert everything to cosines, using the Pythagorean formula, i.e., sin2x + cos2x = 1.sin2x + cos x = 0(1 - cos2x) + cos x = 0-cos2x + cos x + 1 = 0cos2x - cos x - 1 = 0Now you can apply the quadratic formula, solving for cos x, and using a = 1, b = -1, c = -1.It helps to convert everything to cosines, using the Pythagorean formula, i.e., sin2x + cos2x = 1.sin2x + cos x = 0(1 - cos2x) + cos x = 0-cos2x + cos x + 1 = 0cos2x - cos x - 1 = 0Now you can apply the quadratic formula, solving for cos x, and using a = 1, b = -1, c = -1.
2x2-10+7 = 0 Solving the quadratic equation using the quadratic formula will give you two solutions and they are: x = (5 - the square root of 11)/2 or x = (5 + the square root of 11)/2
8 pints to a gallon... 10.5 gallons x 8 pints = (figure it out)