## Why does the angle affect the range of a projectile?

The maximum height is determined by the initial vertical velocity. Since steeper launch angles have a larger vertical velocity component, increasing the launch angle increases the maximum height.

## How does the angle affect how far the ball goes?

In most cases you should see that a medium, 45-degree angle made the ball go the farthest. When you throw the ball at a very shallow angle, gravity pulls it down and the ground is closer, which ends the throw sooner so it does not have as much time to travel as far forward.

## How does launch angle affect range?

Answer: C Explanation: The maximum range occurs for a launch angle of 45°. This highest point increases as the angle increases. At a 75° launch angle, the maximum height is approximately 76 meters. However, a further increase in launch angle beyond this 75° angle will increase the peak height even more.

45°

## How do you find the optimal angle?

To find what you are asking for, you have to find the flight time using the quadratic formula on the y equation (to find when y=0) then input that time to the x equation to find the range. Then you can take the derivative ∂/∂θ to find the optimal θ.

45 degrees

## What is the ideal trajectory or angle for every throwing event to help your throw become better and farther?

Release Angle For most objects the optimal flight angle is 45 degrees. Do to the javelin’s aerodynamics and speed its release angle should be around 36-40 degrees.

## What forces causes vy to change as the golf ball travels?

As the ball moves through its trajectory, it undergoes a downward acceleration due to the force of gravity.

## What form of energy is stored as a golfer raises the club?

gravitational potential energy

## Why do golf balls have dimples?

Dimples on a golf ball create a thin turbulent boundary layer of air that clings to the ball’s surface. This allows the smoothly flowing air to follow the ball’s surface a little farther around the back side of the ball, thereby decreasing the size of the wake.

## How long is a golf club in contact with the ball?

approximately 1/200

## What part of the golf club should you hit the ball with?

There is a short and simple answer to the question of what part of the golf ball you should hit. It is the rear, center portion of the ball. That’s what will bring you the best result with the most swings.

## Where should I look when striking the golf ball?

You are not sure where to look when hitting a golf ball. The Solution: While common advice is to focus either on the entire ball, a spot in front of the ball, a specific dimple on the ball or the back inside quarter of the golf ball there is no rule here and no proven method.

## What part of the golf ball should I look at during address?

At address, try looking at the very back edge of the ball and hold your eyes there throughout the swing. If you are trying to hit a specific kind of ball flight, such as a fade or a draw, you may want to look slightly to the inside or outside of the back of the ball as your ideal contact point.

## Can standing too close to the golf ball cause a slice?

Standing too close to the ball causes a loss of posture, reduction in arm extension, loss of balance, loss of speed, toe hits, slices, low hooks and a change in swing path.

## Do you keep your eye on the ball in golf?

It is a perfect chant for the golf player at every turn. If you cannot see the ball clearly, your chances of hitting it are slim to none! When you look at the ball, you want to keep your eyes on one spot. Do not look at your club to see if it is squared to the ball.

## When putting where should you look?

It is easier to execute a free flowing stroke when looking at the hole rather than with your eyes down. The idea is that you should look at the hole, not the ball, from the moment you set your putter down until you complete your putting stroke.

## Do you look at the hole when putting?

The technique: Don’t look at the golf ball when putting! Or practice putting by looking at the hole or at an intermediate target, rather than looking at the golf ball. Colin Montgomerie and Jordan Spieth, among others, have even done this during tournament play.

## Should you look at the hole when you put?

Looking at the hole also keeps your internal range finder fully engaged and enables your increasingly well-educated subconscious to intervene, on its own, when it senses something going awry. Besides, the easiest way to keep your head still is to aim it, at the outset, toward the thing it yearns to peek at.

## Where do you put your eyes to focus?

They simply keep their eyes focused longer on the back of the ball. Dr. Wilson says he encourages his students to “keep their gaze on the back of the ball, which is the contact point for the putter, for a brief period before starting the putting action” long enough to say “back of the cup” to themselves.

## What do pros look at when putting?

1. PRO FOCUS: According to recent eye-tracking studies, lower-handicaps and professional golfers tend to lock their eyes onto one specific part of the ball while they’re standing over their putt. Their focus is locked, and their eyes remain “quiet” and calm until they finish the stroke.

## What angle gives maximum range?

The textbooks say that the maximum range for projectile motion (with no air resistance) is 45 degrees.

## What is the effect of increasing the angle of projection on the range of a projectile?

In the nutshell, the range,R, increases with increasing angle of projection for 0° ≤ θ < 45°; the range,R, is maximum when θ = 45°; the range,R, decreases with increasing angle of projection for 45° < θ ≤ 90°. Horizontal range Horizontal range is same for a pair of projection angle.

## Why is 45 degrees the optimal angle for projectiles?

The sine function reaches its largest output value, 1, with an input angle of 90 degrees, so we can see that for the longest-range punts 2θ = 90 degrees and, therefore, θ = 45 degrees. A projectile, in other words, travels the farthest when it is launched at an angle of 45 degrees.

## What is the relationship between the angle of release and the height and range of the projectile?

As illustrated by the figure, the larger the initial launch angle and maximum height, the longer the flight time of the object. Projectile Trajectories: The launch angle determines the range and maximum height that an object will experience after being launched.

## At what angle of projectile is the horizontal range minimum?

The range of a projectile for a given initial velocity is maximum when the angle of projection is 45^(@). The range will be minimum, if the angle of projection is. Step by step solution by experts to help you in doubt clearance & scoring excellent marks in exams.

45 Degrees

## What is the formula of angle of projection?

(1) where U is the initial velocity, θ is the angle of projection and g is the acceleration due to gravity. The horizontal distance covered by the projectile i.e. range is given by, R=U2Sin2 θ g… (2). We want to calculate the angle of projection for the condition i.e.

## What is angle of projection?

(i) Angle of projection – It is the angle with the surface with which the projectile is projected. The maximum range angle of the projectile should be 450. This application is used for various purposes to send the particle to maximum distance.

## What is angle of projection for maximum horizontal range?

Complete step by step answer: If the angle of projection is 75.96∘, the maximum height is equal to the horizontal range.

## What is angle of projection in physics?

The angle between the initial velocity of a body from a horizontal plane through which the body is thrown, is known as angle of projection.

## What is point of projection in physics?

Point of Projection: The point from which the body is projected in the air is called a point of projection. Trajectory of Projectile: The path followed by a projectile in the air is called the trajectory of the projectile.

## How do you find velocity with distance and angle?

The equation for the distance traveled by a projectile being affected by gravity is sin(2θ)v2/g, where θ is the angle, v is the initial velocity and g is acceleration due to gravity. Assuming that v2/g is constant, the greatest distance will be when sin(2θ) is at its maximum, which is when 2θ = 90 degrees.

## What is the condition for maximum range of a projectile?

If a projectile is launched at a speed u from a height H above the horizontal axis, and air resistance is ignored, the maximum range of the projectile is Rmax=ug√u2+2gH, where g is the acceleration due to gravity.

## How Does height affect the range of a projectile?

Increasing the launch height increases the downward distance, giving the horizontal component of the velocity greater time to act upon the projectile and hence increasing the range. “

## How do you maximize the range of a projectile?

To maximize the range with respect to the firing angle θ we differentiate R with respect to θ and set this equal to 0. g 2 ∙ cos 2θ ( ) ∙ 0 therefore 2θ π 2 from which we obtain θ π 4 or 45 degrees. Suppose now we fire the projectile up a ramp which makes an angle α with respect to the horizontal.

## How do you calculate projectile distance?

Horizontal projectile motion equations

1. Horizontal distance can be expressed as x = V * t .
2. Vertical distance from the ground is described by the formula y = – g * t² / 2 , where g is the gravity acceleration and h is an elevation.

## What are the formulas for projectile motion?

h = v 0 y 2 2 g . h = v 0 y 2 2 g . This equation defines the maximum height of a projectile above its launch position and it depends only on the vertical component of the initial velocity. A rock is thrown horizontally off a cliff 100.0 m high with a velocity of 15.0 m/s.

## How do you calculate the force of a projectile?

To calculate the force of impact, divide kinetic energy by distance.

## What determines the hang time of a projectile?

HANG TIME is the total time that an object or person stays in the air when the object is thrown or when the person jumps. The HANG TIME is measured from the instant the player’s feet leave the ground until the time the player’s feet return to the ground.

## How long will a projectile stay in the air?

The time for projectile motion is completely determined by the vertical motion. So any projectile that has an initial vertical velocity of 14.3 m/s and lands 20.0 m below its starting altitude will spend 3.96 s in the air.

## What is the hang time formula?

Total time (hang time) = time going up + time coming down. so, 2 X time down = hang time.

## What is G in projectile motion?

We can obtain the equations for projectile motion by plugging the appropriate accelerations into the two-dimensional motion equations: g = 9.8m/s2 = 32ft/s2 at the surface of the Earth. The minus sign appearing in the equations indicates that the y-axis must point upwards, or opposite the direction of gravity.

## What are the 2 types of projectile motion?

In a Projectile Motion, there are two simultaneous independent rectilinear motions:

• Along the x-axis: uniform velocity, responsible for the horizontal (forward) motion of the particle.
• Along y-axis: uniform acceleration, responsible for the vertical (downwards) motion of the particle.

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## Does mass affect a projectile?

Explanation: Mass is not relevant in projectile motion. What is relevant is the initial speed and direction of the object.

## Why mass does not affect projectile?

Mass does not affect the speed of falling objects, assuming there is only gravity acting on it. Both bullets will strike the ground at the same time. The horizontal force applied does not affect the downward motion of the bullets — only gravity and friction (air resistance), which is the same for both bullets.

## Why does mass not affect the range of a projectile?

When an object is dropped from a tower, mass does not affect final velocity or time. When writing equations of motion for a dropped object, mass is in the equations in 2 places and they cancel out. That is basically the reason that mass does not affect the results of analysis of a projectile.