Derive a single algebraic expression for the range as a function of V0, θ, and h...

Derive a simplified expression for the change in internal energy of a liquid as a function...

Derive a simplified expression for the change in internal energy of a liquid as a function of temperature and volume using the RK equation of state.

Using MATLAB The range of an object shot at an angle θ (with respect to x-axis),...

Using MATLAB The range of an object shot at an angle θ (with respect to x-axis), with the initial velocity of V0 (in the absence of air resistance), is calculated by the following formula: range=(Vo^2/g)(sin(2theta)) where (0<=theta<=pi/2) And the trajectory of object is given by:     h=tan(theta).x-(g/2Vo^2*cos^2(theta)).x^2 .Where h is the height of the object at each x location and g = 9.81 m/s2. a) Using π/8 increment size for the angle and V0 = 10 m/s, plot the trajectories of...

A student throws a water balloon with speed v0 from a height h = 1.64 m...

A student throws a water balloon with speed v0 from a height h = 1.64 m at an angle θ = 29° above the horizontal toward a target on the ground. The target is located a horizontal distance d = 8.5 m from the student’s feet. Assume that the balloon moves without air resistance. Use a Cartesian coordinate system with the origin at the balloon's initial position. Part (a) What is the position vector, Rtarget, that originates from the balloon's...

Consider the function 1 ( 1 − x ) 4. To derive a power series, we...

Consider the function 1 ( 1 − x ) 4. To derive a power series, we should Start with the geometric series   ["Integrate", "Differentiate"] both the function and series  ["0", "1", "2", "3", "4", "5", "6"] times. Finally, divide by   ["1", "2", "3", "4", "5", "6"]         . Flag this Question Completing the previous question, we get the power series representation What is b?

3. Let Y be a singleobservation from a population with density function. f(y)=  2y/θ2 0 ≤ y...

3. Let Y be a singleobservation from a population with density function. f(y)=  2y/θ2 0 ≤ y ≤ θ   f(y)=  0     elsewhere (d) Use the pivotal Y /θ to find a 100(1 − α)% upper confidence interval for θ, which is of form (−∞, θˆU ). For the following questions, suppose for some θ0 > 0, we wish to test H0 :θ = θ0v.s. H1 :θ < θ0 based on a single observation Y . (e) Show that a level-α test has the...

(8.0.10) In class we showed that intensity distribution for single slit diffraction is given by I(θ)...

(8.0.10) In class we showed that intensity distribution for single slit diffraction is given by I(θ) = I(0) [sin( β/ 2)/( β/2)]. ( β = ka sin(theta) , "a" is the slit width and k = 2π/λ ). (a) Show that the maxima in the diffraction pattern occur at θ for which tan( β/ 2) = β/2. (b) An obvious solution to this equation is β = 0, which corresponds to the central maximum. By sketching the functions tan(β/2) and...

In this question, you will carry out the algebraic equivalent to the diagrammatic analysis investigating the...

In this question, you will carry out the algebraic equivalent to the diagrammatic analysis investigating the effect of amenities on incomes and real-estate prices. To start, let the consumer utility function be given by q1/2c1/2a1/2, where c  is consumption of “ bread ” (a catch-all commodity), q is real estate (housing), and a is amenities, which are valued by the consumer given that a’s exponent is positive. Letting y denote income, it can be shown that the consumer demand functions for...

Homework 3 As you know very well from physics, if you hit a ball forward with...

Homework 3 As you know very well from physics, if you hit a ball forward with a certain angle and a certain speed, it makes an orbital movement. The height of the ball is determined by the equation given below. y(t)=y_0+v_y0 t-1/2 gt^2 Where y0 is the first location of the ball, vy0 is the initial vertical velocity of the ball and g is the gravitational acceleration. After the ball is thrown, the horizontal distance is determined by the following...

A single axis accelerometer is mounted on a rotating wheel so that its measurement axis is...

A single axis accelerometer is mounted on a rotating wheel so that its measurement axis is along a radius vector which is perpendicular to the wheel’s axis of rotation at a distance, R. The wheel’s rotation axis is tilted at an angle θ from the local vertical direction in a constant gravity field, ?⃗. For example, at θ = 0, the wheel’s rotation axis is aligned with ?⃗ and the accelerometer’s measurement axis is in the local horizontal plane (perpendicular...

Your task will be to derive the equations describing the velocity and acceleration in a polar...

Your task will be to derive the equations describing the velocity and acceleration in a polar coordinate system and a rotating polar vector basis for an object in general 2D motion starting from a general position vector. Then use these expressions to simplify to the case of non-uniform circular motion, and finally uniform circular motion. Here's the time-dependent position vector in a Cartesian coordinate system with a Cartesian vector basis: ⃗r(t)=x (t) ̂ i+y(t) ̂ j where x(t) and y(t)...