well not really because the displacenment from your home is not far and besiedes it depaends on how far you live. and or if your home schooled.
Displacement is only the distance from the starting point. As long as you return to where you started, then you can travel 1.0 x 10^999999999999 miles and still have a displacement of zero.
Displacement includes the distance between the starting and ending points and the direction in which you travel.
No. Distance is never negative, and total distance travelled doesn't decrease during a trip. The distance from A to B is the same as the distance from B to A. Displacement, on the other hand, can be negative, and can decrease during a trip. The displacement from A to B is the same magnitude, but opposite sign, as the displacement from B to A. An example would be if you went from your home to a friend's house 1 mile to the east. After you reach your friend's house, you have travelled a distance of 1 mile and your displacement from your starting position is 1 mile. When you come back home from your friends house, you travel a distance of 1 more mile. Your total distance travelled is now 2 miles, but your displacement from your starting location is zero (because you are back where you started.)
d=displacement v=initial velocity t=time a=acceleration Our basic formula for displacement: d=vt+.5at2 becomes: t = (√(v2+2ad)-v)/a
So, what is the question? - Well, you would need a greater speed, to travel a longer distance in the same time.
Not possible. The displacement could be equal to the distance traveled ... if the route of travel was a straight line ... or less than the distance traveled ... if the route of travel was wavy and wiggly. But you can never wind up farther from your starting point than the distance you travel.
Distance is a function of displacement. You need to define the origininal position and the present position. The difference between them is the displacement, the distance is the measure (using accepted units) of the difference between the two.
No. Consider the distance between your school and home is 30 km. you would travel to and fro daily, that means you would travel a distance of 60 km. In this scenario, Distance travelled = 60 km whereas, Displacement = 0
When an object moves from point A to point B , its displacement is the straight line distance between those points. So, by definition, it is the shortest possible path. The object can certainly travel by a curved path from A to B so its actual distance traveled would be longer then its displacement. This would be true regardless of how much time it takes to travel the paths.
distance travel led by a particle in a given interval of time is known as displacement. displacement=distance traveled by time taken.Displacement may be zero. it is path length which a particle travels.distance should not be zero.
Speed Average speed- the total distance traveled divided by the time it takes to travel that distance Velocity is also the distance or displacement divided by the time
Distance is the total length travelled where as displacement is the length between where you started and where you are now. example.. If you travel in a circular path, around the whole circle and wind up back where you started. Your displacement will be zero but your distance travelled will be the circumference of the circle.
displacement in time (physics SUVAT equations)
Distance is the overall length of travel. If you traveled in a big L you distance is the length of both lines. Displacement is the length and direction you are from your starting point so in the instance of the big L, a connecting line that makes a triangle is your displacement. Another example is if you travel 5 ft to the left and then 5 ft to right, The distance you traveled is 10 ft, but your displacement is 0 because you ended back up where you started
Displacement is only the distance from the starting point. As long as you return to where you started, then you can travel 1.0 x 10^999999999999 miles and still have a displacement of zero.
diplacement
Distance of travel or in scientific terms its Displacement