Answer:
<em>The stopping distance if the car skids is 225 ft</em>
Explanation:
<u>Friction</u>
It's a force that opposes movement and requires the interaction of two surfaces. If the interaction occurs from relative rest, then the friction force is greater than the case where the interactions occur from relative speed. The static coefficient is greater than the kinetic friction, and the relation is
If the car needs 180 ft to stop with slipping impending (no relative speed between the tires and the road), we can find the distance needed to stop the car in skidding conditions, which we expect to be greater.
This indicates that the friction forces have the same relation
Since the mass is the same:
Simplifying
Now we'll focus on the dynamic formulas. The acceleration can be computed from the initial speed vo, the final speed vf and the distance x:
This relation stands for both accelerations, which happen to be decelerations:
Where xk and xs are the distances needed to stop the car in each case. Note that vf and vo are the same since the test is done with the same values for both. Knowing the relation between the accelerations, we can have the relationship between the distances
Simplifying
Thus
Energy transfer is the conversion or movement of one form of energy to another.
An example of energy transfer would be if a light switch is turned on, electrical energy runs through the wires and is transferred to the light bulb, where electrical energy is converted to light and heat energy.
Another example would be our bodies converting chemical energy from food into mechanical and electrical energy, which allows us to move.
Answer: Resonance in sound is when one object is vibrating at the same frequency to the second object of forces to the second frequency.
Explanation:
"Acoustic resonance is a phenomenon in which an acoustic system amplifies sound waves whose frequency matches one of its own natural frequencies of vibration (its resonance frequencies)." wikipedia I hope this helps you!
The answer is a steep mountainside