i dont know i asked that queston please help me!!!
Calculate the difference in velocity, Then divide that by the time. The result will be the acceleration, in this case, in meters per second squared.
2 ms^-2.
an ice skater turning as he skates around an ice rink
Water Strider - in the insect family Gerridae also a Pond Skater
well, I'm studying the solar system and I found that in space it mainly talks about rotating.1 of the 3 examples of rotating in science is that the Earth rotates around the sun every 365 days
The larvae of .mosquito rise to the surface when about to hatch and use the strong surface tension of the water's surface as a platform to emerge. They must not get wet or they will be trapped in this meniscus.They are light enough to rest on he surface in a similar way to a pond skater whilst their wings inflate and dry.
Every sport is related to science. Then again everything is related to science. In hockey: * The skater moves on ice since the ice under the blades melts and lubricates the ice/blade interface (Physics, Thermodynamics) * Players rebound from each other as the exchange of kinetic energy takes place (Kinetics) * The shot puck moves in a straight line following tNewton's Laws of Motion.(Physics) * Players wear pads to rduce the impact of the pucks inertia (Physics) * The ice is formed by heat exchange with compressed gas or brine (Thermodynamics) * The Zamboni lays down a layer of water that can freeze quickly enough for h next period (Physics, Mechanical Engineering) * Teams wear different coolurs so colur perception can separate the players (Optics) * Cuts are disinfected (Medicine) * Stats are kept (Math and Probability) * The arena is lit (Electrical Engineering) * The sticks ad skates are alloys (Metallurgy) * The gaes are televised (Electronics)
Calculate the difference in velocity, Then divide that by the time. The result will be the acceleration, in this case, in meters per second squared.
The acceleration cannot be determined with this information. The beginning and ending velocity needs to be known. You can determine her average velocity, however. average velocity = displacement/time = (9mi - 3mi)/3s = 6m/3s = 2m/s
Acceleration is change in velocity. These are vectors that have magnitude and direction. Changing either magnitude (speed) or direction will have the skater be accelerating. SO, if the skater is going at a constant speed of 2m/s in a straight line, he is not accelerating. If he is at a constant speed of 2m/s traveling in a circle (you gave the word "around"), he is accelerating. Going around in circles means there is a force constantly changing your direction. Obviously that force is coming from the skaters legs.
Joey Mantia
a = vf - vi = D v the answer is -11 km/hr/sec t t
The skater is going faster.The skater is traveling at 10 m/s (36 kph or 22.369 mph)compared with the cyclist that is traveling at 8 m/s (28.8 kph or 17.895 mph)200/25 = 8 m/s400/40 = 10 m/s
He is an entertainment photograher Shoot celebrities for studios. Kind of a staff photography for the studios. He was a gymnast and pro inline skater. NOT a pro skateboarder.
Not only can she have it, she must, in order to stay on the parking lot.Velocity means speed and direction of motion. If she wants to stay on the nice icyparking lot, she absolutely must change her direction now and then. That means hervelocity has to change, even if her speed doesn't.By the way, that's called 'acceleration'.
Who cares if a figure skater is gay or straight? If they perform well and give a good show, it should not concern you, nor is it your business. Just enjoy their talent.
Who cares if a figure skater is gay or straight? If they perform well and give a good show, it should not concern you, nor is it your business. Just enjoy the talent.
HE IS A PRO SKATER HE IS A PRO SKATER HE IS A PRO SKATER HE IS A PRO SKATER
Draw the two graphs on the same set of axes. One inline skater will pass the other if the lines representing each of their motions intersect. The position coordinate of the point where the lines intersect is the position where the passing occurs.