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How do you calculate the vertical acceleration of an object?
To calculate the vertical acceleration of an object, you can use the formula: acceleration change in velocity / time. This means you divide the change in velocity by the time it takes for that change to occur. The resulting value will give you the vertical acceleration of the object.
How can one determine the vertical acceleration of an object?
To determine the vertical acceleration of an object, you can use the formula: acceleration change in velocity / time. Measure the change in velocity of the object moving vertically and divide it by the time it took for the change to occur. This will give you the vertical acceleration of the object.
What is the difference between vertical acceleration and horizontal acceleration?
Vertical acceleration is the rate of change of velocity moving up or down, while horizontal acceleration is the rate of change of velocity moving left or right. Vertical acceleration is affected by gravity, while horizontal acceleration is typically due to external forces like friction or thrust.
If after an object is thrown no other fone and ads on it except gravity What are the vertical and horizontal components of its acceleration vector?
The vertical component of the acceleration vector is the acceleration due to gravity (9.81 m/s^2 downward). The horizontal component of the acceleration vector is zero since there is no acceleration acting in the horizontal direction (assuming no external forces).
Can a body move horizontally with acceleration in vertical direction If yes why?
Yes, a body can move horizontally with acceleration in the vertical direction if it is subject to a force that is acting at an angle. This can cause the body to experience motion in both the horizontal and vertical directions simultaneously, resulting in acceleration in the vertical direction while still moving horizontally.
A football is kicked with a velocity of 31 ms at an angle of 41 degrees what is the balls acceleration in the vertical direction?
The acceleration in the vertical direction is due to gravity and is approximately 9.8 m/s^2 downward. The vertical acceleration remains constant throughout the ball's flight trajectory.
What is the acceleration of a projectile when its instantaneous vertical velocity is zero at the top of its trajectory?
Acceleration at the point of zero vertical velocity will be equivalent to gravitational acceleration on that body. On Earth, for example, this is around 9.8 meters per second per second (9.8m/s2).
What is the acceleration of a projectile when instantaneous vertical velocity is zero at the top of its projectile?
Acceleration at the point of zero vertical velocity will be equivalent to gravitational acceleration on that body. On Earth, for example, this is around 9.8 meters per second per second (9.8m/s2).
A bullet dropped versus a bullet fired from a gun which has greater acceleration?
The bullet fired from a gun has greater horizontal acceleration. For vertical acceleration, they are both the same.
What is the vertical acceleration of a projectile if the vertical component of its velocity vector is zero?
The vertical component of a projectile's velocity is irrelevant. It can be up, down, or zero, makes no difference. As long as projectile motion lasts ... gravity is the only force on the object and you're ignoring air resistance ... its acceleration is constant, and is equal to the acceleration of gravity: 9.8 meters per second2 pointing down.
How to find the vertical velocity of an object in motion?
To find the vertical velocity of an object in motion, you can use the formula: vertical velocity initial vertical velocity (acceleration due to gravity x time). This formula takes into account the object's starting vertical velocity, the acceleration due to gravity (usually -9.8 m/s2), and the time the object has been in motion. By plugging in the values for these variables, you can calculate the vertical velocity of the object.
What is the vertical acceleration of a projectiles?
The vertical acceleration of a projectile near the Earth's surface is approximately equal to the acceleration due to gravity, which is about 9.8 m/s^2 downward. This acceleration remains constant unless influenced by external forces like air resistance.
