The impact speed is 100 - 98 = 2 kmh.
The impact speed when the car traveling at 300 km/h bumps into the rear of the other car traveling at 88 km/h is 212 km/h. This is calculated by subtracting the speeds (300 km/h - 88 km/h = 212 km/h).
The force with which one moving object hits another object is the force of impact or collision force. This force is determined by the speed and mass of the moving object, and it can cause the objects to change direction or deform upon impact.
No, speed does not include the direction an object is traveling. Speed only refers to how fast an object is moving regardless of its direction. Velocity, on the other hand, includes both speed and direction.
The act of moving to go from one place to another is called "traveling."
They would be traveling at the same speed. Two objects moving with the same velocity must be moving in the same direction and at the same speed. The reason for this is because velocity is speed in a specified direction. Another way to say that is to say that velocity is speed with a direction vector. It is a physical quantity with magnitude and direction. Two objects moving with the same speed could be moving toward a head-on collision. Or they could be moving along convergent, divergent or skewed paths. Not so with two objects that have identical velocities. They are moving on the same or on parallel courses, and they are moving at the same speed.
The impact speed is just the difference between the two speeds, so in this case 2 km/hr.
The impact speed when the car traveling at 300 km/h bumps into the rear of the other car traveling at 88 km/h is 212 km/h. This is calculated by subtracting the speeds (300 km/h - 88 km/h = 212 km/h).
The force with which one moving object hits another object is the force of impact or collision force. This force is determined by the speed and mass of the moving object, and it can cause the objects to change direction or deform upon impact.
An object traveling in one direction can be accelerated in another direction by applying a force in the desired direction. This force will cause the object's velocity to change, leading to acceleration in the new direction. The acceleration will depend on the magnitude and direction of the force applied.
Whichever direction the traveling car was moving, until something stops them.
It slows to a rest and then starts moving in the opposite direction at constant acceleration in that direction.
No, speed does not include the direction an object is traveling. Speed only refers to how fast an object is moving regardless of its direction. Velocity, on the other hand, includes both speed and direction.
The act of moving to go from one place to another is called "traveling."
The velocity of a car traveling backwards would be negative, as it is moving in the opposite direction of its positive reference point.
They would be traveling at the same speed. Two objects moving with the same velocity must be moving in the same direction and at the same speed. The reason for this is because velocity is speed in a specified direction. Another way to say that is to say that velocity is speed with a direction vector. It is a physical quantity with magnitude and direction. Two objects moving with the same speed could be moving toward a head-on collision. Or they could be moving along convergent, divergent or skewed paths. Not so with two objects that have identical velocities. They are moving on the same or on parallel courses, and they are moving at the same speed.
They would be traveling at the same speed. Two objects moving with the same velocity must be moving in the same direction and at the same speed. The reason for this is because velocity is speed in a specified direction. Another way to say that is to say that velocity is speed with a direction vector. It is a physical quantity with magnitude and direction. Two objects moving with the same speed could be moving toward a head-on collision. Or they could be moving along convergent, divergent or skewed paths. Not so with two objects that have identical velocities. They are moving on the same or on parallel courses, and they are moving at the same speed.
The bottle is likely being carried by the current or the movement of the water caused by the waves. The direction of the waves propels the bottle forward, moving it in the same direction as the waves.