Yes, it certainly can if enough force is applied.
Gravity and no force being applied to the vehicle. Traction has nothing to do with it. It boils down to Newtons first law which states, "Every object in a state of uniform motion tends to remain in that state of motion unless an external force is applied to it".
When an applied force causes rock to break, it typically results in the formation of cracks or fractures in the rock. These cracks propagate through the rock as the force is applied, eventually leading to the rock breaking into smaller pieces or fragments. The extent of the breakage will depend on factors such as the type of rock, its structure, and the magnitude of the applied force.
When like charged ions are brought closer together in an ionic compound due to an applied force, the repulsion between them increases. This can cause the crystal lattice to deform or even break if the force is strong enough, leading to the compound breaking apart or dissolving.
Yes, glass can break glass. When enough force is applied, such as through impact or pressure, glass can crack or shatter. Glass is a brittle material that is prone to breaking under stress.
That probably depends how you break it. I guess you would usually break something by hitting it with something. In that case, the force is applied by the object that hits it.
When an applied force exceeds the rock's strength, it causes the rock to break. The stress from the force surpasses the rock's ability to withstand it, leading to fractures and ultimately the rock splitting or breaking apart. This process is influenced by factors such as the type of rock, its structure, and the direction of the force applied.
Yes, static friction is the force that prevents an object from moving when a force is applied to it. It arises when the applied force is not strong enough to overcome the frictional force between the object and the surface it is resting on.
It will not get harder on hitting it but crack and even tend to break depending on the amount of force applied on it It will not get harder on hitting it but crack and even tend to break depending on the amount of force applied on it
Applying a pulling force to hold a bone in correct alignment is commonly used in orthopedic traction. This technique is used to realign fractured or dislocated bones, reducing pain and promoting proper healing by maintaining the bone in the correct position. Different types of traction methods can be applied, such as skin traction, skeletal traction, or external fixation, depending on the specific needs of the patient and the type of fracture or dislocation.
Some do break, depending on the strength of the force applied.
When an applied force causes rocks to break, the stress exceeds the rock's strength, leading to the rock fracturing. This can generate cracks, fractures, or fault lines in the rock. The type of breakage (e.g., sheer, tensional, or compressional) depends on the direction of the applied force relative to the rock's natural weaknesses.