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2 wrz 2019 · Distance Time Graphs Practice Questions. Click here for Questions. Click here for Answers. travel graphs, distance-time.
Example: The speed-time graph shows a 50-second car journey, Calculate the total distance travelled over the 50 seconds. we know, Area under the graph = Distance travelled. To work out the area under this graph, we will break it into 4 shapes: A, B, C, and D.
You can use the calculator below to summarize traveled distance: Distance traveled: 14100 (m, ft, km, miles - depending on the units used) Example. A car travels intervals with constant speed: 25 m/s in 120 s. 30 m/s in 220 s. 15 m/s in 300 s. The total distance traveled by the car can be calculated as.
Distance time graphs – Key things to remember: 1) The gradient of the line = speed. 2) A flat section means no speed (stopped) 3) The steeper the graph the greater the speed. 4) Negative gradient = returning to start point (coming back)
One way of calculating the speed from a distance-time graph is to think about how far the object has travelled in one time unit. For example, if an object has travelled 20 miles in 30 minutes, it would travel 40 miles in one hour, therefore the speed is 40 \ mph.
DISTANCE-TIME GRAPHS – PRACTICE QUESTIONS 1. Clive drove to an office for a meeting. After the meeting, he drove straight back home. The distance-time graph below shows his journey. (a) How many kilometres away is the office from Clive’s home? (b) How long was the meeting? (c) How long did it take Clive to drive to the meeting? 2. Danny ...
Distance-time graphs show distance from a fixed point at different times. Distance is on the vertical axis, and time is on the horizontal axis. The gradient of the graph is the speed. A positive gradient represents the object (or person) moving away from the starting point.
