Tuesday, March 3, 2020
Solving Problems With a Distance-Rate-Time Formula
Solving Problems With a Distance-Rate-Time Formula In math, distance, rate, and time are three important concepts you can use to solve many problems if you know the formula. Distance is the length of space traveled by a moving object or the length measured between two points. It is usually denoted by d in math problems. The rate is the speed at which an object or person travels. It is usually denoted byà rà in equations.à Time is the measured or measurable period during which an action, process, or condition exists or continues. In distance, rate, and time problems, time is measured as the fraction in which a particular distance is traveled. Time is usually denoted by t in equations.à Solving for Distance, Rate, or Time When you are solving problems for distance, rate, and time, you will find it helpful to use diagrams or charts to organize the information and help you solve the problem. You will also apply the formula that solves distance, rate, and time, which isà distance rate x time. It is abbreviated as: d rt There are many examples where you might use this formula in real life. For example, if you know the time and rate a person is traveling on a train, you can quickly calculate how far he traveled. Andà if you know the time and distance a passenger traveled on a plane, you could quickly figure the distance she traveled simply by reconfiguring the formula. Distance, Rate, and Time Example Youll usually encounter a distance, rate, and time question as aà word problemà in mathematics. Once you read the problem, simply plug the numbers into the formula. For example, suppose aà train leaves Debs house and travels at 50 mph. Two hours later, another train leaves from Debs house on the track beside or parallel to the first train but it travels at 100 mph. How far away from Debs house will the faster train pass the other train? To solve the problem, remember that d represents the distance in miles from Debs house and tà represents the time that the slower train has been traveling. You may wish to draw a diagram to show what is happening. Organize the information you have in a chart format if you havent solved these types of problems before. Remember the formula: distance rate x time When identifying the parts of the word problem, distance is typically given in units of miles, meters, kilometers, or inches. Time is in units of seconds, minutes, hours, or years. Rate is distance per time, so its units could be mph, meters per second, or inches per year. Now you can solve the system of equations: 50t 100(t - 2) (Multiply both values inside the parentheses by 100.)50t 100t - 200200 50t (Divide 200 by 50 to solve for t.)t 4 Substitute t 4 into train No. 1 d 50t 50(4) 200 Now you can write your statement. The faster train will pass the slower train 200 miles from Debs house. Sample Problems Try solving similar problems. Remember to use the formula that supports what youre looking for- distance, rate, or time. d rt (multiply)r d/t (divide)t d/r (divide) Practice Question 1 A train left Chicago and traveled toward Dallas. Five hours later another train left for Dallas traveling at 40 mph with a goal of catching up with the first train bound for Dallas. The second train finally caught up with the first train after traveling for three hours. How fast was the train that left first going? Remember to use a diagram to arrange your information. Then write two equations to solve your problem. Start with the second train, since you know the time and rate it traveled: Second traint x r d3 x 40 120 milesFirst traint x r d8 hours x r 120 milesDivide each side by 8 hours to solve for r.8 hours/8 hours x r 120 miles/8 hoursr 15 mph Practice Question 2 One train left the station and traveled toward its destination at 65 mph. Later, another train left the station traveling in the opposite direction of the first train at 75 mph. After the first train had traveled for 14 hours, it was 1,960 miles apart from the second train. How long did the second train travel? First, consider what you know: First trainr 65 mph, t 14 hours, d 65 x 14 milesSecond trainr 75 mph, t x hours, d 75x miles Then use theà d rtà formula as follows: d (of train 1) d (of train 2) 1,960 miles75x 910 1,96075x 1,050x 14 hours (the time the second train traveled)
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