Downward.
The force acting on a falling rock is gravity, which pulls the rock downwards towards the Earth's center. As the rock falls, it may also experience air resistance, which opposes its downward motion.
Yes, a falling rock has kinetic energy because it is in motion. As the rock falls, its gravitational potential energy is being converted into kinetic energy due to its movement and speed.
The falling rock has kinetic energy due to its motion as it falls. This energy is the result of its velocity and mass, and it can be calculated using the formula KE = 1/2 * mass * velocity^2.
Aristotle categorized motion into natural motion and violent motion. Natural motion occurs without external force, such as an apple falling down due to gravity. Violent motion is caused by an external force, like pushing a rock.
Downward.
The force acting on a falling rock is gravity, which pulls the rock downwards towards the Earth's center. As the rock falls, it may also experience air resistance, which opposes its downward motion.
Yes, a falling rock has kinetic energy because it is in motion. As the rock falls, its gravitational potential energy is being converted into kinetic energy due to its movement and speed.
The falling rock has kinetic energy due to its motion as it falls. This energy is the result of its velocity and mass, and it can be calculated using the formula KE = 1/2 * mass * velocity^2.
Aristotle would explain a falling rock by saying that the rock's natural place is on the ground, so it falls towards the Earth to reach that place. He would describe it as the natural motion of the rock seeking its proper location.
earthquakes made the rock cave in
Aristotle categorized motion into natural motion and violent motion. Natural motion occurs without external force, such as an apple falling down due to gravity. Violent motion is caused by an external force, like pushing a rock.
Gravity and air resistance.
That is a trick question, but I believe it is kinetic energy.
A clastic sedimentary rock with angular particles.
it will describe large rock
Yes, a large rock falling from a cliff and breaking is an example of mechanical energy being transformed into kinetic energy, as the potential energy stored in the rock at the top of the cliff is converted into energy of motion as it falls and breaks upon impact.