The force that causes earthquakes is primarily generated by the movement of tectonic plates along faults in the Earth's crust. As the plates move, stress builds up and eventually overcomes the friction holding the rocks together, causing them to break and release energy in the form of seismic waves, resulting in an earthquake.
The moon's gravitational pull can create tides in Earth's oceans, causing stress on tectonic plates. This stress can sometimes trigger earthquakes, especially in regions already prone to seismic activity. The gravitational force of the moon is not the primary cause of earthquakes, but it can influence their timing and magnitude.
Earthquakes can be both a constructive and destructive force. When the fault lines move they can cause incredible damage (destructive) and they also can cause new land formations (constructive).
Convection currents in the Earth's mantle are thought to be responsible for plate motions and therefore can ultimately be considered the cause of earthquakes. Mantle upwelling or mantle plumes are also thought to be the cause of hotpots which cause intra-plate volcanic activity such as that which occurs in Hawaii.
Convection currents in the Earth's mantle are thought to be responsible for plate motions and therefore can ultimately be considered the cause of earthquakes. Mantle upwelling or mantle plumes are also thought to be the cause of hotpots which cause intra-plate volcanic activity such as that which occurs in Hawaii.
Earthquakes and volcanic eruptions are caused by forces within the Earth's interior. Earthquakes occur when tectonic plates shift and release built-up stress, while volcanic eruptions happen when molten rock, gas, and ash are expelled from within the Earth through a vent or fissure.
The answer is Earthquakes.
The answer is Earthquakes.
A break sound could be caused by physical damage or stress on an object, such as a bone or a material like glass or metal, resulting in a sudden fracture or separation that produces a sound. The specific characteristics of the break sound will depend on the type of material involved and the force applied to it.
Stress is not a force but force divided by area. If high enough, it will cause itself to break
earthquakes constructive force on earth
Earthquakes are like a rubber band. They both have limits. If you strech a rubber band the farthest it can, it will eventually meet it's elastic limit or the point where it can strech its farthest. If you go any farther than its elastic limit the rubber band will break. This is an example of how earthquakes are formed.I'm not sure if a volcano can cause earthquake or an earthquake can cause an volcanic eruption or both. But earthquakes can cause volcanoes to erupt. There are many kinds of earthquakes some are big and destructive but most of them are small that we can't even feel. Small earthquakes are important now and then because if they don't happen often the stress and force build up and create a big earthquake. One cause of earthquake causes in volcanic regions can probably be the shaking of an earthquake can cause an eruption. Or the shaking ofa volcano can cause an earthquake.
An unbalanced force can cause an object to accelerate or change its direction of motion. It can also cause an object to deform or break if the force is strong enough.
Earthquakes can cause volcanos to errupt by the plates moving and crashing into one other which creates an earthquake(when plates collide it causs an earthquake) so the force of the earthquake causes a volcano erruption.
Any object traveling in a circular path must have a centripetal force on it in order to cause it to curve.
No one starts earthquakes it is a complex combination of tectonic plates of the earth and or the tidel effects on the earth from the moon the movement of these structures cause enough force to cause vibration on the surface of the world. In a nut shell you start them
A destructive force is any natural disaster. Such as, earthquakes, volcanoes, tsunami's, etc.
The force that produces acceleration is called net force. It is the combination of all the forces acting on an object, taking into account both direction and magnitude. When a net force is applied to an object, it accelerates in the direction of that force.