Force F1 of 3.5N act on an object to the right and force f2 of 4.3N act on the object towards the left....Determine the resultant of the forces using accurate tail to head vector diagram use a scale of 10mm:1N
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To determine the resultant of the forces F1 and F2 using a vector diagram, follow these steps:
1. Draw a horizontal line to represent the baseline of the vector diagram.
2. Draw a vector F1 to the right with a length of 3.5N. Use the given scale of 10mm:1N to measure the length of the vector. Label it as F1.
3. Draw a vector F2 towards the left with a length of 4.3N. Again, measure the length using the scale 10mm:1N and label it as F2.
4. Place the tail of vector F2 at the head of vector F1, maintaining the correct direction.
5. Draw the resultant vector R from the tail of F1 to the head of F2. This represents the sum of the forces F1 and F2.
6. Measure the length of vector R using the scale 10mm:1N. The measured length will give you the magnitude of the resultant force.
7. Use a ruler to find the angle between the baseline and vector R. This will give you the direction of the resultant force.
To determine the resultant of the forces using an accurate tail-to-head vector diagram, follow these steps:
Step 1: Draw a horizontal line on a piece of paper to represent the ground or baseline.
Step 2: Choose a suitable scale for the vector diagram. In this case, the scale is given as 10mm:1N, which means that every 1 Newton (N) is represented by a 10mm line segment on the diagram.
Step 3: Identify and label the two forces, F1 and F2, on the diagram. F1 has a magnitude of 3.5N and acts to the right, while F2 has a magnitude of 4.3N and acts to the left.
Step 4: Starting from the tail of F1, draw a line segment representing its magnitude and direction. Since F1 acts to the right, the line segment should be drawn to the right from the starting point. According to the given scale, the length of this line segment would be 3.5 * 10mm = 35mm.
Step 5: Starting from the tail of F2, draw a line segment representing its magnitude and direction. Since F2 acts to the left, the line segment should be drawn to the left from the starting point. According to the given scale, the length of this line segment would be 4.3 * 10mm = 43mm.
Step 6: From the endpoint of F2, draw a line segment connecting it to the endpoint of F1. This line segment represents the resultant force (R).
Step 7: Measure the length of the line segment representing R using a ruler or any measuring device. According to the given scale, the measured length can be converted to the magnitude of the resultant force in Newtons.
By following these steps, you can accurately determine the resultant of the forces using a tail-to-head vector diagram and the given scale.