yes they do. this is due to momentum. same way as when you throw a ball. it hits the ground and keeps rolling forward.
This is known as inertia. When the bus is acted upon by an unbalanced force the inertia of the bus differs but not of the person who is standing. So the person continues to be moving forward even if the bus decelerates suddenly until friction acts upon the person or the person catch holds of something and vice versa when the bus accelerates.
When the bus starts moving, the passenger's body tends to remain at rest due to inertia. As a result, the bus moving forward causes the body to lean back due to inertia's resistance to change in motion. This backward feeling is the body's natural response to the bus accelerating forward.
because the bus still moving its uniform motion suddenly the bus applies brakes the bus stop at rest so we fall forward due to inertia and the bus was its rest suddenly the bus starts its accelerates so we fall backwards due to inertia
When a bicycle is moving, its forward momentum creates gyroscopic forces that help stabilize it. These forces, along with the bike's steering and rider's input, contribute to its balance. When stationary, these forces are absent, making it more difficult to balance the bike. Additionally, when stationary, there is no forward motion to counteract the effects of gravity, making it more likely for the bike to fall over.
Friction is the force that tends to keep a load from moving. It acts in the opposite direction to the force applied to move the load, making it harder to overcome.
Force is an external agent or influence, which changes or tends to changethestate of rest or state of uniform motion of a body in astraight line. Question 2. Back to Top. Question: What are balanced and unbalanced forces? ...(d) A passenger jumping out of a moving bus falls forward if he does not run forward ...
This is known as inertia. When the bus is acted upon by an unbalanced force the inertia of the bus differs but not of the person who is standing. So the person continues to be moving forward even if the bus decelerates suddenly until friction acts upon the person or the person catch holds of something and vice versa when the bus accelerates.
When the bus starts moving, the passenger's body tends to remain at rest due to inertia. As a result, the bus moving forward causes the body to lean back due to inertia's resistance to change in motion. This backward feeling is the body's natural response to the bus accelerating forward.
because the bus still moving its uniform motion suddenly the bus applies brakes the bus stop at rest so we fall forward due to inertia and the bus was its rest suddenly the bus starts its accelerates so we fall backwards due to inertia
The passenger jerking forward when a bus suddenly stops can be explained by Newton's First Law of Motion, also known as the law of inertia. This law states that an object in motion tends to stay in motion unless acted upon by an external force, such as the sudden stop of the bus which causes the passenger to continue moving forward.
the force that tends to make a moving bodies fly away to the center of rotation
Okay, so Newton's First Law of Motion states: An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. Okay, so with that in mind, a cyclist is moving forward. The rock is large enough to stop the bicycle. However, the cyclist not being attached to the bicycle, will tend to stay in motion, lauching said cyclist over the handlebars.
An ostler is the name of a person who tends horses at an inn.
When the car vis moving u are at the same pace with but a sudden brake stops the motion of the car but not yours An object in motion tends to stay in motion.
This happens because an object in motion tends to stay in motion
When a bicycle is moving, its forward momentum creates gyroscopic forces that help stabilize it. These forces, along with the bike's steering and rider's input, contribute to its balance. When stationary, these forces are absent, making it more difficult to balance the bike. Additionally, when stationary, there is no forward motion to counteract the effects of gravity, making it more likely for the bike to fall over.
The object is moving forward at high speed and tends to travel in a straight line. But the gravitational pull of the Sun causes it to accelerate towards the Sun. The combined effect is that the object's path bends sideways, continuously.