A slope does not have any speed.
The speed. Also, if a positive slope represents the speed in one direction, the negative slope is the speed in the opposite direction.
No. The slope on a speed vs time graph tells the acceleration.
Slope at any point is speed. if slope is constant (staight line)then speed is constant; if curved up speed is accelerating. If curved down it is decelerating
The slope of the speed-vs-time graph is the magnitude of acceleration.
It increases.
The speed of the ball will increase at the bottom of the slope due to the conversion of potential energy into kinetic energy as it rolls downhill. Assuming no external forces are acting on the ball, it will be traveling at its maximum speed at the bottom of the slope.
The steeper the slope (greater angle), the faster the ball will roll downhill due to the increased gravitational force acting on it. This increased force results in a greater acceleration, causing the ball to gain speed more quickly.
If Rotor resistance is increased torque is increased
A slope does not have any speed.
The slope of a distance-time graph gives the speed of an object. A steeper slope indicates a higher speed, while a flatter slope indicates a lower speed.
On a time graph, constant speed is represented by a straight line with a constant slope. The slope of the line indicates the speed of the object – the steeper the slope, the faster the speed, and the shallower the slope, the slower the speed.
The steepness of the slope indicates the rate at which the object's speed is changing. A steeper slope suggests a faster change in speed, while a shallower slope indicates a slower change in speed.
The slope of a distance-time graph represents the speed or velocity of an object. A steeper slope indicates a faster speed, while a shallower slope indicates a slower speed.
The slope of a wavelength vs period graph represents the speed of the wave. A steeper slope indicates a higher speed, while a gentler slope indicates a slower speed.
A steeper slope would increase the speed of the water because gravity would exert a stronger force on the water, causing it to flow downhill faster. This increased velocity would result in a more rapid flow of water.
The reaction will speed up.