A force that becomes curved is typically a result of gravitational influence, as described by Einstein's theory of general relativity. When massive objects, like planets or stars, exert gravitational force, they warp the fabric of spacetime, causing the paths of nearby objects to curve. This curvature can be observed in the orbits of planets around the sun or the trajectory of light near massive bodies. Thus, the force of gravity not only acts in a straight line but also manifests as a curvature in space.
no because it will become round and polygons are straight lines.
Yes, a curved line can become vertical at certain points, depending on its shape and the context. For example, in calculus, the tangent line to a curve can be vertical at points where the derivative is undefined, such as at a cusp or vertical asymptote. However, the entire curve itself remains a continuous line and does not become vertical over a segment.
They conquered them. Basically, it was by force.
A sphere has a total curved surface. A cylinder and a cone have a partial curved surface
Yes, technically a curved line can be a line segment, a line in general is something that can be curved or straight
The horizontal component of the normal force acts as the centripetal force when a curved road is banked.
They don't always become a curved shape. A SFD will only become a curved shape if you have a distributed load that is changing over time. A BMD will only become a curved shape if the related shear force diagram is changing over time (not a flat line) however because the SFD is the integral of the force applied and the BMD is the integral of the SFD, generally as you keep going to a higher order, you will start getting more curvy lines.
Yes, projectiles are affected by the centripetal force when they are in curved motion. The centripetal force acts towards the center of the curved path, keeping the projectile moving in a circular or curved trajectory.
Curved motion is typically caused by the presence of a force that is not aligned with the direction of motion. This force can be due to factors such as gravity, electromagnetic forces, or friction. The object experiencing the curved motion will deviate from a straight path and follow a curved trajectory as a result of the applied force.
If a charged particle moves in a magnetic field then Lorentz magnetic force acting will be perpendicular to its movement and so the particle will be taken along a curved path. Lorentz force will be towards the centre of the curved path. Any force facing towards the centre of the curved path is named as centre seeking or centripetal force.
If a net force acts at an angle to the direction an object is moving, the object will follow a curved path. This is because the force causes both a change in the object's speed and its direction. The object will move in the direction of the net force, but its trajectory will be curved due to the combination of the force and the object's initial velocity.
A centripetal force does.
The force required for an object to become a projectile is an initial force that gives the object an initial velocity in a direction, such as kicking a ball or throwing a stone. Once the object is propelled with this initial force, it follows a curved trajectory under the influence of gravity.
follow a curved path
A thrown object follows a curved path due to the combination of its initial velocity and the force of gravity acting on it. The horizontal velocity propels the object forward, while the vertical force of gravity causes it to accelerate downward, resulting in a curved trajectory. This combination of horizontal and vertical motion gives rise to a curved path.
The magnitude of centripetal force is calculated by the relation Fc=mv2/r where m is mass of the object,v speed of the object (constant) and r radius of the curved path.If the radius of curved path is large then centripetal force is decrease. Therefore it is easy to turn along a curved path of large radius as compared to a curved path of short radius.
Centrifugal force is not considered to be real because it is actually an apparent force that arises from the inertia of an object moving in a curved path. In reality, the object is moving in a straight line, but due to the curved path, it appears as if there is a force pushing the object outward.