Which Has Higher Linear Speed A Horse Near The Outside Rail Of A Merry-Go-Round Or A Horse Near The Inside Rail?
Which has greater linear speed, a horse near the outside of a merry-go-round or a horse near the inside rail? Neither – they both have the same linear speed.
Which has greater linear speed a horse near the outside of a merry-go-round or a horse near the inside rail?
All of the horses move through one complete circle in the same amount of time. The horses on the outside of the carousel have to cover more distance than the inside horses in the same amount of time. This means the horses on the outside have a faster linear speed than those at the hub.
Which moves faster in MS on a merry-go-round a horse on the inside?
Which moves faster in m/s on a merry-go-round: a horse on the inside or a horse on the outside near the outer rail? c. Both move at the same speed in m/s.
When you ride a merry-go-round where would you have the greatest linear speed near the outside or closer to the center?
A point on the outer edge of a merry-go-round or turntable travels a greater dis- tance in one complete rotation than a point near the center. So the linear speed is greater on the outer edge of a rotating object than it is closer to the axis.
Which horse has a higher tangential speed in m/s on a merry-go-round?
2) Which horse moves faster in m/s on a merry-go-round? C) both move at the same speed in m/s. You just studied 45 terms!
Where is angular speed the greatest?
Venus has the slowest angular velocity (2.99 × 10−7rad/sec) and Jupiter has the fastest (1.76 × 10−4rad/sec). The graph below shows that relationship between the days and the length of day.
What rolls faster a coin or a ring?
When both start rolling under gravity, then the acceleration of the ring is less than the acceleration of the coin. Hence, the coin will speed up quickly and will reach the bottom of the incline in a shorter time interval than the ring.
Which has greater linear speed a horse near the outside rail of a merry-go-round or a horse near the inside rail a the inside horse B the outside horse c neither?
Which has greater linear speed, a horse near the outside rail of a merry-go-round or a horse near the inside rail? The outside horse. Which has greater angular speed, a horse near the outside rail of a merry-go-round or a horse near the inside rail? Neither- they both have te same angular speed.
Which has a higher linear velocity when rolling a big wheel or a small wheel with the same angular velocity?
Similarly, a larger-radius tire rotating at the same angular velocity, ω ω , will produce a greater linear (tangential) velocity, v, for the car. This is because a larger radius means a longer arc length must contact the road, so the car must move farther in the same amount of time.
Which has greater linear speed a horse near the outside rail of a merry?
Which has greater linear speed, a horse near the outside of a merry-go-round or a horse near the inside rail? Neither – they both have the same linear speed.
Is the inside or outside of a merry-go-round faster?
In terms of linear speed, the one on the outside has greater linear speed. In terms of angular speed, there is no difference.
What is the fastest movement of a horse?
The gallop
The gallop is the fastest gait of the horse, averaging about 40 to 48 kilometres per hour (25 to 30 mph). The speed of the canter varies between 16 to 27 kilometres per hour (10 to 17 mph) depending on the length of the horse’s stride.
Where is linear velocity the greatest?
The first relationship in v = rω or ω = v / r states that the linear velocity v is proportional to the distance from the centre of rotation, thus, it is largest for the point furthest away from the point of rotation.
What does linear speed depend on?
The linear speed of a point on a rotating object can be determined by its distance from the center of the rotation. The angular speed is measuring the angle that an object travels through in a certain amount of time. The angular speed will measure in units of radians per second i.e. radian per second.
Which part of the Earth has the greatest linear speed due to the rotation of the Earth?
The equator
The equator has the greatest linear speed
(rotational, linear) speed varies.
Is the linear speed of a child sitting near the center of a rotating merry-go-round the same as that of another child sitting near the edge of the same merry-go-round explain?
a. No, the child near the center has a larger linear velocity because her radius is smaller and her rotational displacement is larger.
Which has the greater tangential and rotational speed on merry-go-round?
This is an Expert-Verified Answer
A point on the outer edge of a merry-go-round travels a greater distance in one complete rotation than a point near the midpoint. So the tangential speed is greater on the outer edge of a rotating object than it is closer to the axis.
What does highest speed figure mean in horse racing?
The figure is based on the horse’s actual finishing time along with other factors such as run up distance, rail distance and track condition (including wind when recorded). The higher the figure the better, with the fastest horses achieving in the 120s.
How do you find greatest speed?
If we take the distance that an object travels and divide that by the time taken to travel that distance, then that fraction equals the object’s speed. For a distance–time graph then, the slope of a line on the graph is equal to the speed of a given object. The steeper the slope, the greater the speed.
How do you find linear speed?
The linear speed of a point on the object is thus equal to the angular speed multiplied by the distance r. Meters per second and meters per second is the unit of measurement. where, ω = speed in radians/ sec.
At which point the speed is maximum?
the highest point
The speed is maximum at the highest point. At the highest point of the trajectory of a projectile, its speed is minimum. This is because the horizontal speed of the projectile remains constant.
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