A force of `6 kg` another of `8 kg` can be applied together to produce the effect of a single force fo

To solve the problem of combining two forces of 6 kg and 8 kg, we need to determine the range of the resultant force that can be produced when these two forces are applied together. ### Step-by-Step Solution: 1. **Identify the Forces**: We have two forces: - Force 1 (F1) = 6 kg - Force 2 (F2) = 8 kg 2. **Calculate the Maximum Resultant Force**: The maximum resultant force occurs when both forces are applied in the same direction. This can be calculated as: \[ F_{\text{max}} = F1 + F2 = 6 + 8 = 14 \text{ kg} \] 3. **Calculate the Minimum Resultant Force**: The minimum resultant force occurs when the two forces are applied in opposite directions. This can be calculated as: \[ F_{\text{min}} = |F2 - F1| = |8 - 6| = 2 \text{ kg} \] 4. **Determine the Range of Resultant Forces**: Therefore, the resultant force can vary between the minimum and maximum values calculated: \[ \text{Resultant Force Range} = [2 \text{ kg}, 14 \text{ kg}] \] 5. **Conclusion**: The resultant force produced by applying the two forces together can range from 2 kg to 14 kg. ### Final Answer: The effect of the two forces can produce a single force ranging from 2 kg to 14 kg. ---