For the following equations: ?E = − 6.0 cos 45° m/s + 3.0 m/s, ?L =...

A body oscillates with simple harmonic motion according to the equation x = 6.0 cos(3t +...

A body oscillates with simple harmonic motion according to the equation x = 6.0 cos(3t + π/3) where the units are SI. The speed of the body when it has a displacement of 3 m is...Can someone show me how to solve this problem step by step? A. 6π m/s B. 9π m/s C. m/s D. 18π m/s E. m/s

Find the derivative of the following: f(s)=cos(π/2(s))sin(π/2(s)) If f(q)=e−5qcos(2πq), then f′(q) is f(y)=cos(π/2*y2) e3x+7/x2-1 If f(q)=e-5qcos(2πq),...

Find the derivative of the following: f(s)=cos(π/2(s))sin(π/2(s)) If f(q)=e−5qcos(2πq), then f′(q) is f(y)=cos(π/2*y2) e3x+7/x2-1 If f(q)=e-5qcos(2πq), then f′(q) is 1/(2−e2s)4=

A particle with charge q = 6.0 nC   and mass m = 3.0×10−11 kg which is...

A particle with charge q = 6.0 nC   and mass m = 3.0×10−11 kg which is initially at rest accelerates through a potential difference V = 100 V and enters into a region 0 < x < d, where there is a uniform magnetic field of magnitude B = 1.5 T with direction perpendicular to the plane of the paper and inward. Use the coordinate system shown in the figure to answer the following questions. (Gravitational force on the particle...

Problem 1: Which of the following equations represents a plane which is parallel to the plane...

Problem 1: Which of the following equations represents a plane which is parallel to the plane 36?−18?+12?=30 and which passes through the point (3,6,1) ? a). 6?−3?+2?=3 b). 6?+3?−2?=34 c). 36?+18?−12?=204 d). 6?−3?+2?=2 e). 36?+18?+12?=228 Problem 2: At which point(s) does the helix r (t)=〈cos??/4, sin??/4, ?〉 intersect the sphere ?2+?2+?2=5 ? a). (0,1,2) and (0,−1,−2) b). (−1,0,4) and (−1,0,−4) c). (1,0,4) and (−1,0,−4) d). (0,1,−1) and (0,1,1) e). (0,1,−1) and (0,−1,1)

Gram Stain Flow Chart for the Organisms: N.sicca, M. luteus, S. epidermidis, E. coli, M. roseus,...

Gram Stain Flow Chart for the Organisms: N.sicca, M. luteus, S. epidermidis, E. coli, M. roseus, B. subtilis, B. cereus, S. marcesens, R. rubrum, B. cattarhalis, B. megaterium, S. liquefaciens, E. aerogenes, C. fruendii, E. cloacae, C. xerosis, P. stuartii, A. faecalis Correct identification of your gram negative bacterium, and the correct identification of your Gram positive bacterium. For each unknown submit two guesses: Choice 1 and Choice 2. A “Plan of Action”; a schematic representation of what lab procedures...

Two dragonflies have the following equations of motion: x1 = 2.2 m + (0.71 m/s )t...

Two dragonflies have the following equations of motion: x1 = 2.2 m + (0.71 m/s )t x2 = –3.1 m + (1.4 m/s )t Which dragonfly is moving faster?​ Which dragonfly starts out closer to x = 0 at t = 0?

Write net ionic equations for the following reactions. 1.2AgNO3(aq)+Fe(s)→Fe(NO3)2(aq)+2Ag(s) 2. 2NaI(aq)+Br2(l)→2NaBr(aq)+I2(s) 3. 2AuCl3(aq)+3Sn(s)→3SnCl2(aq)+2Au(s)

Write net ionic equations for the following reactions. 1.2AgNO3(aq)+Fe(s)→Fe(NO3)2(aq)+2Ag(s) 2. 2NaI(aq)+Br2(l)→2NaBr(aq)+I2(s) 3. 2AuCl3(aq)+3Sn(s)→3SnCl2(aq)+2Au(s)

Solve the following differential equations. A spring has a constant of 4 N/m. The spring is...

Solve the following differential equations. A spring has a constant of 4 N/m. The spring is hooked a mass of 2 kg. Movement takes place in a viscous medium that opposes resistance equivalent to instantaneous speed. If the system is subjected to an external force of (4 cos(2t) - 2 sin(2t)) N. Determine: a. The position function relative to time in the transient state or homogeneous solution b. Position function relative to time in steady state or particular solution c....

Labor Relations- Chapter 5- G o v e r n m e n t s ,...

Labor Relations- Chapter 5- G o v e r n m e n t s , L a b o u r R e l a t i o n s B o a r d s , a n d O t h e r P a r t i e s Case Study- Quality Inn & Suites Brantford v. UFCW Local 175 In January 2012 the Ontario Labour Relations Board was asked to consider an application for the...

You have a small boat which travels through water at a speed of 6.0 m/s. You...

You have a small boat which travels through water at a speed of 6.0 m/s. You take it out on a section of a local river where the water flows from north to south at a speed of 4.0 m/s. (a) First, you head south (i.e. downstream) in your boat. Draw a vector which represents the velocity of the boat relative to the water, and a vector that represents the velocity of the water relative to the shore. Then add...