To safely slow down a large, heavy object moving very fast, you can use methods like applying brakes, increasing air resistance, or using friction to gradually reduce its speed. These techniques help to dissipate the object's kinetic energy and bring it to a stop without causing damage or injury.
Yes. Momentum is based on mass and velocity, not physical size. 1 kg of styrofoam moving at 100 m/s has the same momentum as 1 kg of gold moving at 100 m/s, but the piece of styrofoam will be over 1000 times the size. Additionally, since the formula for momentum is mass times velocity, a 10 kg piece of gold moving at 10 m/s has the same momentum as a 1 kg piece of gold moving at 100 m/s. They both have a momentum of 100 kg-m/s.
This question needs to be more specific to generate a meaning full answer. 363 KG is heavy for a human, but not heavy for a truck.
A large crane used for lifting and moving heavy objects is typically called a mobile crane. These cranes are equipped with telescopic booms and wheels for mobility, allowing them to lift heavy loads and transport them to different locations on construction sites or other industrial settings.
Not necessarily. Density is determined by the mass of an object relative to its volume. While many heavy objects have high densities, it is possible for a heavy object to have a low density if it is spread out over a large volume.
Not necessarily. The weight of an object is determined by its mass and the force of gravity acting on it, while density is a measure of how much mass is packed into a given volume. An object can be heavy without being dense if it has a large volume.
a large planet like Jupiter or the moon
If they fit safely on the forks.
The object that is moving at a constant speed will slow down. Its new velocity will be determined by the original constant speed along with the new combined mass of the moving object and the additional "large mass."
if there is large mass its harder to get moving and harder to stop than an object that has less mass.
Yes. If the force applied is smaller than the force of friction for a stationary object or much smaller than the mass x acceleration of a moving object. You can push a freezer without it moving due to the large frictional force of the heavy object and what it is resting on. If you keep applying a force or you are quite strong you could eventually get it to move. Similarly, a truck will have no apparent change in motion if it hits a bicycle.
Yes. Momentum is based on mass and velocity, not physical size. 1 kg of styrofoam moving at 100 m/s has the same momentum as 1 kg of gold moving at 100 m/s, but the piece of styrofoam will be over 1000 times the size. Additionally, since the formula for momentum is mass times velocity, a 10 kg piece of gold moving at 10 m/s has the same momentum as a 1 kg piece of gold moving at 100 m/s. They both have a momentum of 100 kg-m/s.
This question needs to be more specific to generate a meaning full answer. 363 KG is heavy for a human, but not heavy for a truck.
A large crane used for lifting and moving heavy objects is typically called a mobile crane. These cranes are equipped with telescopic booms and wheels for mobility, allowing them to lift heavy loads and transport them to different locations on construction sites or other industrial settings.
The mass of the object (force of gravity) and the frictional force of moving the table are greater than the horizontal force that the boy is exerting on the table... so it won't move
Inertia. The larger the mass of the body the larger its inertia, in other words a heavy object would require a large driving force to make it initially move and a large force as well to make it stop moving or change direction.
because at first they didn't see it all they did was hear the ship hit something. A large Ocean Liner is not like a 'mini' you cannot take a quick left. When a very large very heavy moving object strikes an even larger heavier inert object immense damage is done. Titanic was doomed from the moment they were on collision course
Although a slow-moving object may not have a high speed, it can still possess a significant amount of kinetic energy if it has a large mass. This is because kinetic energy depends not only on speed but also on the object's mass. In the case of a steamroller, its large mass contributes to its substantial kinetic energy even when moving slowly.