To find the acceleration from a given maximum height in a physics problem, we need to clarify a bit more about the context. If this involves an object being projected vertically upward, the maximum height (35 m) and the acceleration due to gravity (which is typically $9.8 \, \text{m/s}^2$ downward on Earth) would be involved in the calculation.

However, without knowing additional information like initial velocity or the nature of the motion (is it free fall? vertical projection?), the acceleration due to gravity would be the only acceleration present unless otherwise specified.

So, assuming it's a free fall or a vertical projection problem:

• The acceleration $a$ would be $-9.8 \, \text{m/s}^2$ (since gravity acts downward), unless you're in a different gravitational environment.

If you are solving for something else like initial velocity, time, or specific forces, let me know!

Would you like further clarification or additional details? Also, here are some related questions for deeper understanding:

1. What is the initial velocity required to reach the maximum height of 35 m?
2. How long does it take for the object to reach the maximum height?
3. What is the total time of flight before the object hits the ground again?
4. How fast is the object moving just before it hits the ground?
5. What would the maximum height be if the initial velocity was doubled?

Tip: When dealing with projectile motion, always start by separating horizontal and vertical components of motion if applicable.