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The horizontal motions of a projectile are independent of its vertical motion. This means that the horizontal velocity remains constant and unaffected by gravity. Additionally, the horizontal distance traveled by a projectile is determined by the initial horizontal velocity and the time of flight.
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What motions describe projectile motion?
Projectile motion involves two simultaneous motions: 1) horizontal motion at a constant velocity (no acceleration) and 2) vertical motion under the influence of gravity (accelerating downward at 9.8 m/s^2). The combination of these motions results in a curved path known as a parabola.
Why is projectile motion curved?
Projectile motion is curved because it involves both horizontal and vertical components of motion. The curved path is a result of the object experiencing a constant acceleration due to gravity in the vertical direction, while moving at a constant velocity in the horizontal direction. This combination of horizontal and vertical motions creates the characteristic parabolic trajectory of a projectile.
The horizontal and vertical components of a projectile's velocity are independent of each other what does this statement mean?
That means the if you change one you do not necessarily change the other. In the case of the projectile the vertical component is dependent on time (if it is a projectile near a large mass like the earth) gravity acts on it accelerating the projectile in a downward direction. The horizontal component remains the same during the entire flight (if we disregard air resistance and such things).
What is the direction of oblique projectile at highest point?
At the highest point of its trajectory, the direction of an oblique projectile will be horizontal. This means that the projectile will momentarily have zero vertical velocity and only horizontal velocity.
What type of motion describes the horizontal component of a projectile?
The horizontal component of a projectile follows uniform motion, meaning it moves at a constant velocity in the absence of air resistance or other forces. This motion is independent of the vertical motion of the projectile.
How does the unbalanced force of gravity affect the horizontal and vertical velocity of an object in projectile motions?
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
How does an unbalanced force of gravity affect the horizontal and vertical velocities of an object in projectile motion?
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
How does the unbalanced force of gravity affect the horizontal and vertical velocities of an objects in projectile motion?
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
How does the unbalanced force of gravity affect horizontal and vertical velocities of an object in projectile motion?
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
What motions describe projectile motion?
Projectile motion involves two simultaneous motions: 1) horizontal motion at a constant velocity (no acceleration) and 2) vertical motion under the influence of gravity (accelerating downward at 9.8 m/s^2). The combination of these motions results in a curved path known as a parabola.
Why is projectile motion curved?
Projectile motion is curved because it involves both horizontal and vertical components of motion. The curved path is a result of the object experiencing a constant acceleration due to gravity in the vertical direction, while moving at a constant velocity in the horizontal direction. This combination of horizontal and vertical motions creates the characteristic parabolic trajectory of a projectile.
The horizontal and vertical components of a projectile's velocity are independent of each other what does this statement mean?
That means the if you change one you do not necessarily change the other. In the case of the projectile the vertical component is dependent on time (if it is a projectile near a large mass like the earth) gravity acts on it accelerating the projectile in a downward direction. The horizontal component remains the same during the entire flight (if we disregard air resistance and such things).
What is the direction of oblique projectile at highest point?
At the highest point of its trajectory, the direction of an oblique projectile will be horizontal. This means that the projectile will momentarily have zero vertical velocity and only horizontal velocity.
What type of motion describes the horizontal component of a projectile?
The horizontal component of a projectile follows uniform motion, meaning it moves at a constant velocity in the absence of air resistance or other forces. This motion is independent of the vertical motion of the projectile.
How does the unbalanced force of gravity affect the horizontal and vertical velocity of an object in projectile motion?
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
A projectile is thrown with an initial velocity which has a horizontal component of 4 m s What will be its horizontal speed after 3s?
The horizontal speed of the projectile remains constant as there is no force acting in the horizontal direction to change it. Therefore, the horizontal speed of the projectile after 3 seconds will remain at 4 m/s.
What are some common projectile problems in physics and how can they be solved?
Common projectile problems in physics include determining the initial velocity, angle of launch, maximum height, range, and time of flight of a projectile. These problems can be solved using equations of motion, such as the kinematic equations, and applying principles of projectile motion, such as the independence of horizontal and vertical motion. By breaking down the problem into horizontal and vertical components, one can analyze the motion of the projectile and calculate the desired quantities.
