Final answer:
Increasing the platform height affects the intensity of work done in lifting objects, with a direct relationship between height and energy required, though the specific increase in intensity depends on multiple factors.
Step-by-step explanation:
This deals with the concept of work and energy in physics. When lifting a weight, the intensity of work can be influenced by the height of the platform. The energy required to raise an object is directly proportional to the height increase. Given an example where lifting a 10 kg box through 2 m requires about 200 J of energy, we can infer that increasing the platform height by even a small amount, such as two inches (approximately 0.05 meters), would increase the amount of work done, hence increasing the intensity of the physical task. Applying this to practical scenarios: raising bricks to a platform, or a person climbing to a higher level, it becomes clear that the work done is affected by the height factor. The increase in intensity is not quantified in specific terms (like percentages) as it depends on many factors including the height from which the measurement begins, but it is understood that the increase is significant.