2. Compute the acceleration of body B and the tension in the cord supporting body A. Body A weighs 200 N and body B weighs 300 N. Coefficient of friction between body B and the inclined plane is 0.20. B 3 A 4
Q: During an all-night cram session, a student heats up a 0.308 liter (0.308 x 10 m³) glass (Pyrex)…
A: Given, The initial volume, V0= 0.308 liter= 0.308×10-3 m3 The initial…
Q: Section 3: Type II Projectiles 3A. Ted swings and hits a baseball, which leaves his bat with an…
A:
Q: please be clear in your answer, as in well written and showing all formulas
A:
Q: n the figure below, what is the potential difference VV between points d and c if & = 5.0 V, 2 = 1.0…
A:
Q: The To term comes from the fact that we don't radiate into a vacuum like stars do, but we radiate…
A: Given data T=33°CT0=20°C Here, T is the temperature of the body. When the human body placed in the…
Q: Two small metallic spheres, each with a mass of m = 6.00 g, are suspended from a common point by two…
A: m = 6 g L = 22 cm θ = 60oθ2 = 30odistance between two masses = d
Q: (Figure 1) shows vectors A and B. Vector D is given by Ď=2A + 2B Figure 15 2.0 m 15⁰ 4.0 m TRO B 1…
A: from the figure,the vector in cartesian form is and the vector in cartesian form is
Q: A 60-kg suitcase slides 5 m down the smooth ramp with an initial velocity down the ramp of 4 = 4.6…
A:
Q: A. Imagine that your group performs this lab again using another simulation version of a ballistic…
A: Solution: As per the given data,
Q: A) The data points you put on the plot (T2 vs. m) should form a straight line. Draw the best-fit…
A: A) The graph of T2 on the y-axis against m on the x-axis may be drawn as shown below: Here, the…
Q: A ball is thrown vertically upward from a window that is 5.5 m above the ground. The ball's initial…
A:
Q: The emissivity of tungsten is 0.350. A tungsten sphere with radius 1.81 cm is suspended within a…
A:
Q: ·+· ÷ Front View A disk is rotating on a vertical axis as shown in the figure. Answer the following…
A: A disc rotating on a vertical axis is given. Two equal and opposite forces are applied at point A…
Q: A light spring of constant k = 90.0 N/m is attached vertically
A: Given: Spring constant K=90.0N/m Mass of balloon and gas mixture is m=2.50g=2.50*10-3kg. Density of…
Q: Projectile Motion I A projectile is launched at the angle 35° from the horizontal with velocity…
A:
Q: A Ferris wheel at a carnival has a radius of 12 m and turns so that the speed of the riders is 8…
A:
Q: 6. In Excel, Plot the velocity versus time. Use the Trendline option to do a linear fit to the data.…
A:
Q: Is the graph linear? Should it be? Why? Calculate what the value of the slope should be using your…
A: From the given data table, if we subtract, the (third column- second column), then we will get the…
Q: A solid cylindrical conducting shell of inner radius a = 5.8 cm and outer radius b- 7.4 cm has its…
A: Given: The inner radius of the cylindrical conducting shell is a = 5.8 cm The outer radius of the…
Q: 2.- The following experimental data shows the variation of kinematic viscosity with the increase of…
A: a) For the given data set, the following plot is obtained The equation in the graph shows the best…
Q: Two point charges q₁ = 2.2nC and q2 = -1.5nC are 13 cm apart. Point A is midway between the charges…
A:
Q: An astronaut is in equilibrium when he is positioned 513 km from the center of asteroid X and 364 km…
A: Given: The given values are, The given r1 value is 513 km. And the given r2 value is 364 km. Find…
Q: Problem 5: An electron (m-9.109 x 10-31 kg) is in the presence of a constant electric field E. The…
A: Given, An electron is accelerating with a=5300ms2
Q: If the spring powered toy gun in the previous problem is fired straight up, how high would the…
A: Let the mass of the ball be M, the spring constant of the spring be k, and the distance up to which…
Q: When you convert from g small unit to g large unit you must divie Note: If this method is confusing…
A:
Q: When two point charges are 2.0 cm apart, each one experiences a 1.0-N electric force due to the…
A: da
Q: Q1. A small, rigid object carries positive and negative 3.50-nC charges. It is oriented so that the…
A: Given: The magnitude of the positive and negative charges are q=3.50 nC. The position of the…
Q: You can now find the angular diameter of the Moon using its linear diameter, 3480 km (2160 mi), and…
A: Given, the linear distance of the moon from Earth = 384000 km the linear diameter of the…
Q: Problem 1: You first walk 10 meters at an angle of 30 degrees East of North. Then, you walk 15…
A:
Q: A 0.00580-kg bullet traveling horizontally with a speed of 1.00 x 10³ m/s enters a 13.0-kg door,…
A: Part A. = yes b. No. Since the bullet is embedded in the door, hence the collsion is inelastic and…
Q: the reaction at A and the tension in the cord. D A 150 N 240 mm-240 mm- Fig. P4.70 B 200 mm 360 mm
A:
Q: 12. The magnetic field B at all points within a circular region of radius R is uniform and directed…
A:
Q: 3. Two batteries and a resistor, R = 1.2 02, are connected in series between points M and B. The…
A: The potential drop across the resistance is given by th Ohm's law V=iR
Q: A 0.00565-kg bullet traveling horizontally with a speed of 1.00 x 10 m/s enters a 17.0-kg door,…
A:
Q: An alien spaceship traveling at 0.600c toward Earth launches a landing craft with an advance guard…
A:
Q: A spherical conductor has a radius of 8 mm and a charge of 20µC. Calculate the electric field and…
A:
Q: Section 2: Type I Projectiles 2A. While standing atop a 20 meter cliff overlooking a lake Julianna…
A: Given: Cliff height, h=20 m Julianna's horizontal velocity, vx=2.75 m/s
Q: Charge q, = 20.6 nC is on the +x axis at a (distance 3.09 m from the origin, and charge q2 = -15.2…
A:
Q: Determine the repelling force between Q1 and Q2 Q1= 10 C Q3 = -25C 20° 45° 15 m Q2 = 15 C
A: Electrostatic force F = kQ1×Q2/r^2 K= 9×10^ Nm^2/C^2 r= distance between two charges
Q: 6. A car leaves point A and drives at 60 km/hr [60° W of N] The car then heads north at 80 km/hr…
A:
Q: you please answer number 4 and all of the sub problems show all of the steps
A:
KINDLY DRAW THE INDIVIDUAL FBD FOR THIS ONE. SOLVE CORRECTLY BY PROVIDING DETAILED COMPUTATION. DO NOT USE SHORTCUTS
Step by step
Solved in 4 steps with 4 images