Explain how you would use kinematic equations to calculate the horizontal range of a projectile when...

We can use the range equation to calculate the horizontal range of any projectile. True or...

We can use the range equation to calculate the horizontal range of any projectile. True or false A small cart of mass m = 0.139 kg is moving at a constant speed v = 3.35 m/s on the inside of a vertical circular track with radius 4.74. Calculate the normal force (in Newtons) that the track exerts on the cart at its topmost point.

A projectile is launched from point O at the edge of a cliff by the sea,...

A projectile is launched from point O at the edge of a cliff by the sea, with initial speed of 22 m/sm/s at an angle of 45° above the horizontal. The projectile rises and then falls into the sea at point P. The projectile travels a total horizonal distance D = 38 mm from the cliff. Ignore air resistance. a) If you want to maximize the horizontal range, how should you adjust the launch angle? b) Calculate the time the...

A projectile is fired from the ground (you can assume the initial height is the same...

A projectile is fired from the ground (you can assume the initial height is the same as the ground) in a field so there are no obstacles in its way. The same projectile was then fired in the same way toward a wall that is a horizontal distance (d) m from where the projectile was fired, and the projectile (as it's going down) hit the wall. If the wall were slightly farther from where the projectile was launched (the projectile...

You have an internship working for the National Park Service. They start you off in the...

You have an internship working for the National Park Service. They start you off in the laboratory which tests possible new equipment. Your first job is to test a small cannon used to prevent avalanches in populated areas by shooting down heavy snow concentrations. You want to find out the velocity of the projectile as it leaves the cannon (muzzle speed) so that the range and trajectory of the cannon can be determined. The cannon you are testing weighs 260...

Basic Physics: Projectile Motion. 1. Given that a ball is launched perfectly horizontally from a height...

Basic Physics: Projectile Motion. 1. Given that a ball is launched perfectly horizontally from a height of 1.2 meters, and lands on the floor a horizontal distance of 2.6 meters away, find the initial speed (or "muzzle velocity") of the ball in meters per second. Use 9.82 meters per second for "g". 2. A ball is launched at an angle of 56.5 degrees up from the horizontal, with a muzzle velocity of 7 meters per second, from a launch point...

Explain when you would use the “z” table to determine distance from the center point on...

Explain when you would use the “z” table to determine distance from the center point on the curve and when you would use the “t” table? Explain how the significance level relates to the validity of the null hypothesis?

I understand how to do the problem. What I am confused on is more conceptual. Why...

I understand how to do the problem. What I am confused on is more conceptual. Why is 70.5 the maximum angle? What does it mean when I plug in a smaller angle and get an imaginary answer? Why are larger angles not applicable? A cannon shoots a cannon ball at a launch angle of theta above the horizontal ground with initial speed v_0. (a) Neglecting air resistance, use Newton's second law to find the ball's position as a function of...

Can you please explain to me the difference between these two equations, and when to use...

Can you please explain to me the difference between these two equations, and when to use each? -P(A|B) =P(A)*P(B|A) -P(A|B)= n(A|B)/n(B)

please use Projectile simulator, for the Lab Projectile Motion in 2-D and answer question below 14....

please use Projectile simulator, for the Lab Projectile Motion in 2-D and answer question below 14. Solve for t. [Hint, you can factor one of the variables.] 15. What is the smaller answer referring to? Given that your larger answer should be the time it takes to land, use that in your x-position equation, i.e. rewrite your equation for x, replacing t with what you got in #14. 16. How far does it travel in the x-direction before it lands?...

If you are given the mass and radius of planet X,explain how you would calculate the...

If you are given the mass and radius of planet X,explain how you would calculate the free fall acceleration on the surface of this planet?