The main forces that cause a projectile to curve as it travels are gravity and air resistance. Gravity pulls the projectile downward, causing it to follow a curved path. Air resistance can also affect the trajectory of the projectile, particularly by slowing it down and altering its path.
A projectile makes a curved path known as a parabolic curve when launched horizontally or at an angle. This curve is a result of the combined effects of gravity and the horizontal velocity of the projectile.
The slowest point of a projectile's trajectory is at the peak of its curve, where its vertical velocity momentarily reaches zero before changing direction and accelerating back downwards due to the force of gravity.
The path taken by a missile or projectile is determined by its initial velocity, angle of launch, and external forces like gravity and air resistance. This path is usually a parabolic curve known as a projectile trajectory. The trajectory can be calculated using physics equations such as the kinematic equations of motion.
Yes, projectile motion involves both a horizontal component and a vertical component. The horizontal component remains constant due to the absence of horizontal forces, while the vertical component is affected by gravity, causing the projectile to follow a curved path.
The curve described by a projectile in flight is called a parabolic trajectory. This curve is a result of the combined effects of the projectile's initial velocity, launch angle, and the force of gravity acting upon it. The projectile follows this path as it moves through the air until it eventually falls to the ground due to gravity.
A projectile makes a curved path known as a parabolic curve when launched horizontally or at an angle. This curve is a result of the combined effects of gravity and the horizontal velocity of the projectile.
The slowest point of a projectile's trajectory is at the peak of its curve, where its vertical velocity momentarily reaches zero before changing direction and accelerating back downwards due to the force of gravity.
Supply is the main force that affects the demand curve to change in the economy or in a certain market.
The path taken by a missile or projectile is determined by its initial velocity, angle of launch, and external forces like gravity and air resistance. This path is usually a parabolic curve known as a projectile trajectory. The trajectory can be calculated using physics equations such as the kinematic equations of motion.
Yes, projectile motion involves both a horizontal component and a vertical component. The horizontal component remains constant due to the absence of horizontal forces, while the vertical component is affected by gravity, causing the projectile to follow a curved path.
The curve described by a projectile in flight is called a parabolic trajectory. This curve is a result of the combined effects of the projectile's initial velocity, launch angle, and the force of gravity acting upon it. The projectile follows this path as it moves through the air until it eventually falls to the ground due to gravity.
The answer is 8km/s
A half projectile refers to the projectile motion of an object where it is launched at an angle of 45 degrees to the horizontal. This angle maximizes the range of the projectile for a given initial velocity, making it travel the furthest distance before hitting the ground. The path of the projectile is a parabolic curve.
To match the curve of the Earth, the projectile must travel at an initial velocity of about 7.9 km/s horizontally. This velocity is equivalent to the orbital velocity necessary for the projectile to continuously fall along the Earth's curvature. Accounting for air resistance and other factors may require adjustments to this initial velocity.
A projectile moving horizontally at 8 km/s will follow the curvature of the Earth due to the force of gravity acting perpendicular to its motion. As the projectile moves forward, gravity acts to pull it downward, causing it to follow a curved path consistent with the Earth's curvature. This results in the projectile eventually falling towards the ground as it travels due to the combined effects of its horizontal velocity and gravitational force.
I think the question is about projectile motion, Yes the animals jumping is the best example of projectile motion, when they jump a parabolic curve is formed thus their jumping could be taken as an example of projectile motion.......
A movement pattern of the arm, which improves accuracy when throwing or hitting a projectile. It involves flattening the centre of the arc of the curve in which the arm is traveling and in the direction in which the projectile is to follow.