Time and Speed Time and Speed
Natural motion: Where he states that objects naturally seek a place of restImposed Motion: Forces exerting on an object will allow it to move
Normally a position-time graph is actually a distance-time graph where the distance of an object is measured from a fixed point called the origin. The slope (gradient) of the graph is the radial velocity - or the component of the velocity in the radial direction - of the object. That is, the component of the object's velocity in the direction towards or away from the origin. Such a graph cannot be used to measure the component of the velocity at right angles to the radial direction. In particular, an object going around in a circle would appear t have no velocity since its distance from the origin remains constant.
1.the speed 2.air 3.force
Motion is a very general term - it means movement of an object. Speed is a specific term - it is a measure of how far an object travels per unit time - for example 100 miles per hour, 2 meters per second, etc. Motion consists of speed and acceleration, and can be linear or rotary.
Motion is change of location or position of an object with respect to time. Change in motion is the result of an applied force. Motion is typically described in terms of velocity also seen as speed, acceleration, displacement, and time. However, the motion of an object is only relative to the position of another object. Motion is a change in position of an object with respect to another object.
An x-t graph shows displacement over time, and a v-t graph shows velocity over time. The combination of the two graphs can give you great detail about the motion of an object over a given period of time. For example, if an object moved 2 cm over 2 seconds on the x-t graph, that says nothing about what direction the object moved in, but if you combine that data with the v-t graph and see that over those 2 seconds the object had a positive acceleration, that means that the object was moving away from the origin of the graph.
2
an object at rest remains at rest unless acted on by an unbalanced force. an object in motion remains in motion unless acted on by an unbalanced force Hope this helps!!!
1. force changes direction of motion. 2. it brings an object to rest. 3. it changes magnitude of velocity. 4. it sets an object to motion.
Becuase 7 divided by 2 is 3.5, you would put it on the graph imbetween 3 and 4!(:
Natural motion: Where he states that objects naturally seek a place of restImposed Motion: Forces exerting on an object will allow it to move
choice 2
V2 X W divided by 2G or 64. Or, Velocity squared times Weight of the object (in motion) divided by 2 Gravity or 64 equals the force of impact of the object in motion.
Normally a position-time graph is actually a distance-time graph where the distance of an object is measured from a fixed point called the origin. The slope (gradient) of the graph is the radial velocity - or the component of the velocity in the radial direction - of the object. That is, the component of the object's velocity in the direction towards or away from the origin. Such a graph cannot be used to measure the component of the velocity at right angles to the radial direction. In particular, an object going around in a circle would appear t have no velocity since its distance from the origin remains constant.
1.the speed 2.air 3.force
hit Y= hit X,T,O,n hit X2 hit graph so you have put y = x2 into your equations window then graphed it you can change the graph around: to put graph up x amount, plug in a c value. ex: (x^2)+2. that will make the graph shift 2. if you want it the shift sideways. add the translation amount to every x. ex: 4x^2+3x+6 would be 4(x+2)^2+3(x+2)+6 to shift the parabola 2 to the side. a b value ( B(X) ) shifts the graph
Yes,friction have force because if there is no force then friction cannot take place. Force is a thing 1.from which we can move from rest 2.from which we can change the state of motion 3.from which we can change the shape of an object 4.from which we can change the direction of motion of an object 5from which we can the speed of an object