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When you jump upward your hang time is the time your feet are off the ground Does hang time depend on your vertical component of velocity when you jump your horizontal component of velocity or both?
Hang time depends on your vertical component of velocity when you jump. The higher the vertical velocity, the longer your feet will be off the ground. The horizontal component of velocity does not affect hang time.
What happens when you increase the horizontal velocity to the maximum in a projectile motion?
Increasing the horizontal velocity to the maximum in a projectile motion will cause the object to travel further horizontally before hitting the ground. This is because the horizontal velocity determines how far the object will travel in the horizontal direction before gravity pulls it down. The vertical motion of the object will remain the same, but the increased horizontal velocity will result in a longer horizontal distance traveled.
What would happen if the initial horizontal velocity was increased?
Increasing the initial horizontal velocity of an object would cause it to cover more horizontal distance in the same amount of time, leading to a longer horizontal range. The object would maintain the same vertical acceleration due to gravity, so it would still follow a parabolic trajectory but reach a farther horizontal distance before hitting the ground.
What is the relationship between the horizontal speed of an object and its trajectory?
The horizontal speed of an object affects its trajectory by determining how far it will travel horizontally before hitting the ground. A higher horizontal speed will result in a longer horizontal distance traveled before hitting the ground, while a lower horizontal speed will result in a shorter distance.
Will a bullet fired from a level gun hit the earth at the same time as the gun if it is dropped at the same time?
no. as long as there are no obstacles present, the bullet would theoretically fall longer than the gun, because the Earth is curved, and the Earth would curve away from the bullet just a little bit before the bullet reached the Earth's surface, making the fall just a little bit longer. this effect will be magnified if the bullet moves at a very high velocity. This is essentially what happens when an object is in orbit, only when an object is in orbit, it is moving quickly enough that the Earth has completely curved out of it's falling path before it reaches the ground.
When you jump upward your hang time is the time your feet are off the ground Does hang time depend on your vertical component of velocity when you jump your horizontal component of velocity or both?
Hang time depends on your vertical component of velocity when you jump. The higher the vertical velocity, the longer your feet will be off the ground. The horizontal component of velocity does not affect hang time.
What happens when you increase the horizontal velocity to the maximum in a projectile motion?
Increasing the horizontal velocity to the maximum in a projectile motion will cause the object to travel further horizontally before hitting the ground. This is because the horizontal velocity determines how far the object will travel in the horizontal direction before gravity pulls it down. The vertical motion of the object will remain the same, but the increased horizontal velocity will result in a longer horizontal distance traveled.
What would happen if the initial horizontal velocity was increased?
Increasing the initial horizontal velocity of an object would cause it to cover more horizontal distance in the same amount of time, leading to a longer horizontal range. The object would maintain the same vertical acceleration due to gravity, so it would still follow a parabolic trajectory but reach a farther horizontal distance before hitting the ground.
How does the angle of release affect the motion of a projectile both vertical and horizontal?
Smaller angles will result in a larger horizontal velocity and smaller vertical velocity. The times of flight will also be shorter since it's closer to the ground. Larger angles have a larger vertical velocity and smaller horizontal velocity. Time of flight will be much longer since it is higher above the ground. As for distance, 45 degrees will result in the greatest distance and for every distance before the furthest one there is an angle above 45 degrees and an angle below 45 degrees that will result in that distance.
Does a higher muzzle velocity equal a longer range?
All other factors equal (bullet mass & frontal area, angle of barrel, etc) a higher muzzle velocity will make the bullet travel further horizontally as if falls to the ground. If the barrel is level when fired , the bullet will hit the ground at the same time as a bullet dropped simutaneously from muzzle height
What is the relationship between the horizontal speed of an object and its trajectory?
The horizontal speed of an object affects its trajectory by determining how far it will travel horizontally before hitting the ground. A higher horizontal speed will result in a longer horizontal distance traveled before hitting the ground, while a lower horizontal speed will result in a shorter distance.
Will a bullet fired from a level gun hit the earth at the same time as the gun if it is dropped at the same time?
no. as long as there are no obstacles present, the bullet would theoretically fall longer than the gun, because the Earth is curved, and the Earth would curve away from the bullet just a little bit before the bullet reached the Earth's surface, making the fall just a little bit longer. this effect will be magnified if the bullet moves at a very high velocity. This is essentially what happens when an object is in orbit, only when an object is in orbit, it is moving quickly enough that the Earth has completely curved out of it's falling path before it reaches the ground.
How long does it take for an egg to reach terminal velocity?
An egg would typically reach terminal velocity in about 12 to 15 seconds when dropped from a significant height. Terminal velocity is the point at which the force of gravity on the egg is equal to the force of air resistance, causing the egg to no longer accelerate.
A ball rolls off the end of a table with a speed of 2 mpers It hits the ground after 3 s If the tableop is 1 m from the floor what was the horizontal distance from the end of the table traveled by?
Hold up, whoa ! Just wait a second there.If the table-top is 1 meter from the floor, then the ball hits the floor 0.45 seconds after itrolls off the edge of the table. The horizontal speed makes no difference.A cannonball fired horizontally from the cannon and a cannonball dropped from the muzzleof the cannon hit the ground at the same time. Horizontal speed doesn't keep anything upany longer than if it drops straight down with no horizontal speed.If the ball is rolling horizontally along the table at 2 m/s, then it falls to the floor 0.45 secondsafter it reaches the edge, and in that period of time, it sails (2 x 0.45) = 0.9 meter out past theend of the table.
Do objects dropped from greater distance hit with a greater force?
Yes. In the formula P=mv, momentum, which governs the force of the impact, is equal to the mass of the object multiplied by the velocity. As the velocity increases, so does the momentum, therefore the greater the height dropped from, the greater the force of impact.
Will a ball thrown almost horizontally go the furthest?
No, this is an example of projectile motion. You should throw it at 45 degrees from the horizontal ground for it to have the maximum horizontal distance. This is because a sufficient height must be achieved, so that the ball can stay in the air longer and thus travel a longer distance while in flight.
How does adding initial height affect maximum range?
Adding initial height to a projectile generally increases its maximum range. This is because a higher launch point allows the projectile to have a longer flight time and greater horizontal distance before it hits the ground, assuming all other factors remain constant. The increased vertical distance also means that the projectile can take advantage of its initial velocity for a longer duration, enhancing its overall travel distance. However, the effect depends on the angle of launch and initial velocity as well.
