if its steeper it'll go faster
The steeper the angle of the ramp, the faster the marble will roll down due to gravity exerting a greater force. A shallower angle will result in slower motion as the gravitational force is weaker. The angle of the ramp directly impacts the speed and acceleration of the marble as it moves.
Yes, the height of a ramp can affect the speed of a marble. The higher the ramp, the more potential energy the marble has, which can be converted into kinetic energy as it rolls down the ramp. Therefore, a higher ramp may result in a faster speed for the marble.
The speed of a marble going down a ramp is influenced by the height of the ramp (which affects the gravitational potential energy) and the length of the ramp (which affects the acceleration of the marble). A longer ramp allows more time for acceleration, potentially resulting in a faster speed, while a shorter ramp may lead to a quicker descent.
Increasing ramp angle generally decreases speed as it requires more effort to overcome the incline. A steeper ramp angle increases the resistance against forward motion, resulting in a slower speed. Conversely, a flatter ramp angle allows for easier movement and a faster speed.
When the height of the ramp is increased, the marble will have a higher gravitational potential energy. As a result, it will travel at a faster speed when it rolls down the ramp due to the increased height converting into kinetic energy. Conversely, decreasing the height of the ramp will result in the marble traveling at a slower speed.
The steeper the angle of the ramp, the faster the marble will roll down due to gravity exerting a greater force. A shallower angle will result in slower motion as the gravitational force is weaker. The angle of the ramp directly impacts the speed and acceleration of the marble as it moves.
Yes, the height of a ramp can affect the speed of a marble. The higher the ramp, the more potential energy the marble has, which can be converted into kinetic energy as it rolls down the ramp. Therefore, a higher ramp may result in a faster speed for the marble.
The speed of a marble going down a ramp is influenced by the height of the ramp (which affects the gravitational potential energy) and the length of the ramp (which affects the acceleration of the marble). A longer ramp allows more time for acceleration, potentially resulting in a faster speed, while a shorter ramp may lead to a quicker descent.
The larger the angle of the ramp, the faster the car will go down it.
Increasing ramp angle generally decreases speed as it requires more effort to overcome the incline. A steeper ramp angle increases the resistance against forward motion, resulting in a slower speed. Conversely, a flatter ramp angle allows for easier movement and a faster speed.
A marble traveling at 3.0m/s starts to acceleration at 4.5m/s over a distance of 25m. what is the final speed of the marble?
When the height of the ramp is increased, the marble will have a higher gravitational potential energy. As a result, it will travel at a faster speed when it rolls down the ramp due to the increased height converting into kinetic energy. Conversely, decreasing the height of the ramp will result in the marble traveling at a slower speed.
A longer ramp length will typically result in a higher speed for the marble due to the increased distance it has to accelerate. This allows the marble to gain more momentum before reaching the end of the ramp.
Yes, it is possible to predict the speed of a marble after rolling down a ramp if you know the height of the ramp. The speed can be calculated using the principles of conservation of energy. By considering the potential energy at the top of the ramp and converting it to kinetic energy at the bottom, the speed can be determined using equations.
Changing the slope of the ramp will affect the speed of the vehicle going down it.
Yes. The degree and slant of the ramp does affect the speed of the car
The height of the ramp should be the only variable in Rebecca's experiment. All other factors should be kept constant to isolate the effect of ramp height on the speed of the marble.